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2025

September 18, 2025

Edutopia: “Using Virtual Manipulatives in Math Class”

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August 19, 2025

Education Week: “Here’s Why It’s Important for Teachers to Have a Say in Curriculum”

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August 18, 2025

Investors Hangout: “Amplify Classroom Revolutionizes K-12 Teaching Experience”

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August 5, 2025

WhaTech: “K-12 Online Education Market Set for Strong Expansion, Reaching $349.77 Billion by 2029”

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August 4, 2025

Education Week: “Districts Using ‘High-Quality’ Reading Curricula Still Supplement With Other Materials. Why?”

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July 9, 2025

K-12 Dive: “Youngest students see big reading gains post-COVID on DIBELS assessment”

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June 25, 2025

The 74: “How Districts in Georgia, Maryland and D.C. Are Raising Reading Proficiency”

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May 28, 2025

Open PR: “K-12 Online Education Market Forecast 2025-2034: Comprehensive Analysis And Growth Opportunities”

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May 27, 2025

District Administration: “Early literacy: How to implement programs that start strong”

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May 20, 2025

EdSource: “California schools prepare to introduce universal reading screening”

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April 23, 2025

The 74: “Eric Adams Expands Reading, Math Curriculum Mandates to All NYC Middle Schools”

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April 21, 2025

Daily News: “NYC expanding reading, math curriculum overhaul to more schools”

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March 19, 2025

Education Next: “School Reinvention in Practice”

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February 28, 2025

K-12 Dive, “Test yourself on this week’s K-12 news”

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February 26, 2025

K-12 Dive: “Only 56% of K-2 students are ready to read”

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January 24, 2025

Chalkbeat Philadelphia: “Two AI-powered charter schools could soon open in Pennsylvania”

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January 16, 2025

Tech & Learning: “What is Polypad and How Can Teachers Use It?”

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2024

December 18, 2024

EdSource: “State takes another step toward mandatory testing for reading difficulties in 2025”

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December 6, 2024

Chalkbeat Philadelphia: “Philadelphia is now spending over $100 million on its curriculum overhaul. Here’s a breakdown.”

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November 27, 2024

Lincoln Journal Star: “Lincoln Public Schools drops a classification rating on statewide assessment”

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November 6, 2024

EdNC: “New K-3 literacy data shows growth in skills for North Carolina students”

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October 1, 2024

The 74: “As NY District Implements Science of Reading, Parents Push for New Focus on Math”

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September 18, 2024

Tech & Learning: “Tech & Learning Announces Winners of Best for Back to School 2024”

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August 22, 2024

Chalkbeat Philadelphia: “Philadelphia school board renews charters, funds tutoring and a new science curriculum”

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August 2, 2024

EdNC: “‘Dedication of our teachers’ praised in an update on the state’s science of reading journey”

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July 31, 2024

The 74: “Classroom Case Study: To Maximize the Impact of Curriculum Mandates, Follow the Science of Reading”

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July 23, 2024

Chalkbeat: “Should teachers customize their lessons or just stick to the ‘script’?”

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July 7, 2024

The Economist: “Will artificial intelligence transform school?”

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June 24, 2024

Chalkbeat: “Math instruction overhaul: NYC unveils new curriculum mandate for middle and high schools”

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June 6, 2024

EdNC: “Perspective | Teachers are the heroes of the literacy story in North Carolina”

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May 24, 2024

The Dallas Morning News: “How Don Quixote changed a Dallas public school classroom”

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May 2, 2024

Akron.com: “Tutoring program at Summit Academy Akron Elementary School attracts national interest”

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April 25, 2024

Edutopia: “Using Tech Tools to Energize Young Students’ Math Learning”

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April 4, 2024

EdNC: “State Board hears update on district ESSER spending, literacy data, and Restart schools”

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March 22, 2024

Thomas B Fordham Institute: “Five takeaways from Ohio’s baseline survey of elementary reading curricula”

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March 15, 2024

The 74: “New Data: Despite K-2 Reading Gains, Students Face a ‘Much Harder Journey’ Ahead”

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March 5, 2024

The 74: “Case Study: How One Texas School District Is Repurposing Staff Development Time to Embrace the Science of Reading”

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February 21, 2024

Times Record News: “UPDATED: Texas Education Commissioner Mike Morath likes what he sees at local school”

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February 19, 2024

Chalkbeat: “Chicago Public Schools recover from pandemic declines more than other districts, study shows”

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February 7, 2024

The 74: “Building Oral Language Skills and Equity Through High-Quality Reading Curriculum”

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2023

December 19, 2023

The 74: “Best Education Articles of 2023: Our 23 Most Important Stories About Students, Schools & Learning Recovery ”

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December 8, 2023

Education Week: “Aligned Science Curriculum, Better Scores? Research Finds a Connection”

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December 6, 2023

WRAL News: “Reading readiness rises in NC’s K-3 classrooms, new data shows”

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November 27, 2023

The Dallas Morning News: “Dallas’ new lessons aim to keep kids on track, but some worry about limiting teachers”

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November 2, 2023

Fort Worth Report: “Black students in Fort Worth ISD still struggle to read at grade level”

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October 31, 2023

Chicago Tribune: “Lake Forest-area schools take stock of state grades; ‘While we celebrate our successes, we acknowledge that the journey … is ongoing’”

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October 19, 2023

Chalkbeat: “NYC eyes middle and high school literacy overhaul. It’s asking families to weigh in.”

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October 16, 2023

The 74: “As Virginia Rolls Out Ambitious Statewide High-Dosage Tutoring Effort This Week, 3 Keys to Success”

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October 6, 2023

Language Magazine: “Embracing Bilingual Assessment”

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September 18, 2023

Tech & Learning: “Best for Back to School 2023”

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September 18, 2023

Chalkbeat: “Chicago Public Schools hired hundreds of tutors with federal COVID money. Can they keep them?”

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September 7, 2023

EdNC: “Perspective | Union County Public Schools empowers educators, elevates readers”

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August 14, 2023

Chicago Parent: “Common Core Math: How to Help Your Kids”

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August 6, 2023

The News & Observer: “NC sees big increase in reading skills among K-3 students. Is the state back on track?”

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August 4, 2023

The 74: “Slow Literacy Gains, Long COVID in Kids: 7 Insights into Pandemic Recovery and Aftermath in U.S. Schools”

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August 3, 2023

EdNC: “State Board of Education: New reading data, parental leave, and a call to support public schools”

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July 28, 2023

Houston Public Media: “New literacy curriculum is among the many changes coming to HISD”

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July 17, 2023

Houston Chronicle: “Mike Miles says HISD schools will teach the ‘science of reading.’ Here’s what that means.”

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July 11, 2023

The 74: “‘Education’s Long COVID’: New Data Shows Recovery Stalled for Most Students”

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July 6, 2023

Houston Chronicle: “HISD superintendent gives voluntary schools one last chance to back out of New Education System”

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June 29, 2023

The Report Card: “Larry Berger on Curriculum”

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June 2, 2023

EdWeek Market Brief:”K-12 Dealmaking: Substitute Teaching Startup Secures $38M; Amplify Raises Undisclosed Series C”

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May 25, 2023

The 74: “Expanding Access to Tutors: Nonprofit Grants $6 Million to 32 Learning Organizations Across 20 States to Help More Students”

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April 21, 2023

The 74: “The ‘Transformation is Real’ as Science of Reading Takes Hold in N.C. Schools”

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April 18, 2023

The 74: “Louisiana District Ravaged by Hurricane & COVID is Bouncing Back with Science”

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April 5, 2023

WFAE: “NC midyear reading data shows gains, but third-grade goals remain elusive”

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April 5, 2023

EdNC: “K-3 students show growth in literacy skills, mid-year DPI data show”

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March 24, 2023

The 74: “COVID & School Recovery: Critics Warn Washington Bill Would Reduce Classroom Learning Time By 4 Hours a Week”

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March 24, 2023

Edutopia: “Using Collective Leadership to Make a Major Shift in Your District”

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March 15, 2023

K-12 Dive: “California at center of latest push for science-based reading approaches”

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March 7, 2023

District Administration: “ESSER pressure: How one district intends to spend wisely as deadline looms”

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March 3, 2023

The 74: “‘The Other Long COVID’ Affecting Kids: Missed Opportunities”

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March 2, 2023

3 WTKR: “More students on track to learn to read in 2022-2023 school year since start of pandemic, researchers say”

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March 2, 2023

ABC 7: “Reading skills rebounding for young students following pandemic disruptions”

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March 1, 2023

K-12 Dive: “By The Numbers: DIBELS testing shows improved reading progress over last two years”

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February 27, 2023

The 74: “Exclusive: Despite K-2 Reading Gains, Results Flat for 3rd Grade ‘COVID Kids’”

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February 27, 2023

Education Week: “Students’ Early Literacy Skills Are Rebounding. See What the Data Show”

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February 7, 2023

The 74: “Using High-Quality Curriculum Doesn’t Mean You Can’t Still Have Fun Learning”

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January 13, 2023

NPR: “Can a middle school class help scientists create a cooler place to play?”

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January 6, 2023

News & Record: “After a numbing low, NC students now heading in ‘right direction’ in reading, math”

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January 5, 2023

CBS17.com: “K-3 students in NC make significant strides on literacy exams, DPI says”

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2022

December 20, 2022

District Administration: “Literacy Under the Lights: 10 ways to bring the community back together”

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December 14, 2022

The 74: “14 Charts This Year That Helped Us Better Understand Covid’s Impact On Students Teachers and Schools”

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December 14, 2022

The 74: “Learning Loss Is Worse than NAEP Showed. Middle School Math Must Be the Priority”

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November 21, 2022

Voicebot.ai: “SoapBox Labs Brings Child-Centered Voice AI to Dyslexia Detection Assessment”

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October 24, 2022

Education Week: “Two Decades of Progress, Nearly Gone: National Math, Reading Scores Hit Historic Lows”

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October 20, 2022

The 74: “Exclusive Literacy Data: Small Gains Since Last Fall, But No Reading Rebound”

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August 30, 2022

The 74: “Test English Learners in the Languages They Speak at School and at Home”

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August 29, 2022

WTKR TV NC: “News 3 investigates childhood literacy rates, raising money to give books to local kids for new school year”

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August 28, 2022

EdNC: “Elementary students made growth last year in skills that lead to reading proficiency, new data show”

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August 18, 2022

SHRM Blog: “The Great Resignation Skipped Us. Here’s why.”

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August 16, 2022

Forbes: “Curious About Knowledge-Building Curricula? Check Out This Website”

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July 20, 2022

District Administration: “Out-of-school STEM learning is much more powerful when it’s inclusive”

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July 19, 2022

Chalkbeat: “The state of learning loss: 7 takeaways from the latest data”

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June 28, 2022

The Preschool Podcast: “Early literacy strategies that stick with Darryl from Run-DMC and Makeda from Nickelodeon [Podcast]”

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May 24, 2022

Forbes: “States That Want To Boost Literacy Should Keep An Eye On Texas”

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April 24, 2022

Business Ecosystem Alliance: “Ecosystems in Education–Collaborating to Efficiently Serve the End User”

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April 18, 2022

KQED Mind Shift: “Weighing the best strategies for reading intervention”

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April 15, 2022

Fordham Institute: “Assessing a standards-aligned physical science curriculum”

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March 23, 2022

The Baltimore Sun: “National test scores show student gains from in-person learning in all but a critical group: new and pre-readers | COMMENTARY”

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March 15, 2022

NPR: “Two years ago schools shut down around the world. These are the biggest impacts”

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March 11, 2022

The Hub – Dallas ISD: “Students at Greiner and Anson Jones Elementary find success in reading and writing with a new program”

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March 10, 2022

NY Daily News: “Read it and weep: The new reading instruction emergency”

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March 10, 2022

WISH TV Indianapolis: “Study shows student performance plummeted during pandemic”

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March 9, 2022

New York Post: “Young students have suffered ‘alarming’ drops in reading skills during pandemic”

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March 9, 2022

The Daily Caller: “Childhood Literacy Plummeted Following Pandemic Shutdowns, Studies Show”

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March 8, 2022

The New York Times: “It’s ‘Alarming’: Children Are Severely Behind in Reading”

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March 7, 2022

Education Next: “The Education Exchange: Pandemic Hurt Younger Students’ Learning Worse, Amplify Data Suggest”

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February 28, 2022

The 74: “Our 12 Best Education Articles in February: Reflections on 700 Days of COVID Chaos, Setting a Bar for Unmasking in Schools, Burying Schools in Record Requests & More”

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February 24, 2022

The Daily Advertiser: “Reading scores improve slightly, but pre-COVID reading levels are ‘the wrong goal’”

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February 24, 2022

Wall Street Journal: “The School Shutdowns and Lost Literacy”

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February 23, 2022

K-12 Dive: “DIBELS data illustrates pandemic reading setbacks”

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February 22, 2022

ABC 7 Buffalo: “Children falling behind in reading”

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February 18, 2022

The Carolina Journal: “Report: Elementary students lag in literacy due to pandemic”

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February 16, 2022

The 74: “‘We Have First-Graders Who Can’t Sing the Alphabet Song’: Pandemic Continues to Push Young Readers Off Track, New Data Shows”

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February 16, 2022

Education Week: “More Than 1 in 3 Children Who Started School in the Pandemic Need ‘Intensive’ Reading Help”

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February 4, 2022

Literary Hub: “EXCLUSIVE: Watch Joshua Bennett Discuss A.R. Ammons’s poem “Cascadilla Falls”

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January 26, 2022

The Ross Kaminsky Show: “Susan Lambert and the Literacy Gap”

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January 19, 2022

K-12 Dive: “Report: Colorado reading law update boosts quality of literacy curriculum”

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2021

December 15, 2021

Chalkbeat: “How Denver plans to address a drop in early elementary reading scores”

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December 8, 2021

The SHRM Blog: “What’s the Best Work Perk of All? Contributing to the Social Good”

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November 13, 2021

Hechinger Report: ‘The Reading Year’: First grade is critical for reading skills, but kids coming from disrupted kindergarten experiences are way behind”

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October 20, 2021

Hechinger Report: “OPINION: Younger students were among those most hurt during the pandemic”

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September 2, 2021

EdSurge: “An Edtech User’s Glossary to Speech Recognition and AI in the Classroom”

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September, 2021

SIIA Education: “ED TECH SUCCESS STORIES”

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August 23, 2021

CNN: “Irish tech firm helps kids’ voices be heard”

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August 18, 2021

SoapBox Labs: “Can Speech Recognition Help Children Learn to Read?”

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August 12, 2021

FOX Chicago Broadcast Interview: “Pandemic widens literacy gap for students”

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August 3, 2021

T.H.E Journal: “More Students of Color at Risk in Reading After Pandemic”

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July 28, 2021

The 74: “Early Reading Skills See a Rebound From In-Person Learning, But Racial Gaps Have Grown Wider, Tests Show”

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July 28, 2021

K-12 Dive: “Reports: Math, reading progress slowed during first full school year of pandemic”

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July 20, 2021

EdNC: “The mCLASS reading assessment tool is back in North Carolina classrooms, but it’s going to look different”

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July 5, 2021

WBAL: “Baltimore students from all socio-economic backgrounds get a chance to ‘Amplify’ their learning skills”

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June 15, 2021

Language Magazine: “Using Evidence to Overcome Adversity”

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May 7, 2021

The Dallas Morning News: “How can a one-minute kindergarten test help teachers tackle the ‘COVID slide’?”

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April 20, 2021

Education Week: “How Teachers and Curriculum Will Shape Ed Tech’s Future: A CEO Makes the Case”

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March 24, 2021

The Hechinger Report: “OPINION: Children will need summer tutors to make up for pandemic learning loss”

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March 23, 2021

Education Week: “Most States Fail to Measure Teachers’ Knowledge of the ‘Science of Reading,’ Report Says”

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March 17, 2021

Axios: “How online education and tutoring could fight COVID learning loss”

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March 16, 2021

USA Today: “Students are struggling to read behind masks and screens during COVID-19, but ‘expectations are no different’”

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March 16, 2021

The 74: “Schools and COVID, a Year Later: 12 Months After Classrooms Closed, 12 Key Things We’ve Learned About How the Pandemic Disrupted Student Learning”

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February 25, 2021

K–12 Dive: “Reading gaps widen in mid-year data, especially for K-1 students of color”

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February 24, 2021

The 74: “One Year into Pandemic, Far Fewer Young Students are on Target to Learn How to Read, Tests Show”

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February 17, 2021

NBC Los Angeles: “Local Students Design Rovers in Mission to Mars Student Challenge”

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February 5, 2021

District Administration: “To save literacy, focus first on high-quality core instruction”

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February 4, 2021

The Hechinger Report: “5 ways schools hope to fight Covid-19 learning loss”

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January 5, 2021

The 74: “Science Matters Now More than Ever. The Time to Start Teaching It Is in Elementary School”

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2020

December 15, 2020

Education Week: “Students’ Reading Losses Could Strain Schools’ Capacity to Help Them Catch Up”

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December 9, 2020

Education Post: “How to Help Beginning Readers During the Pandemic”

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December 3, 2020

American Consortium for Equity in Education: “The Importance of Quality Curriculum With Industry Voice”

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September 29, 2020

The 74: “Beyond the Scantron: Ed Tech CEO Larry Berger on Why the Pandemic Is No Excuse to Abscond Accountability and ‘Disruptions Are Great Opportunities to Try Something New’”

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May 25, 2020

The 74: “Class Disrupted Podcast Episode 2: Why Is My Child Doing So Many Worksheets Right Now?”

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February 5, 2020

Getting Smart Podcast: “Larry Berger on EdTech Past and Future”

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Welcome!

Amplify Science: California Edition is an immersive and engaging core curriculum authored by UC Berkeley’s Lawrence Hall of Science and built specifically for the NGSS.

K–8 Integrated Course Model

Needs of Plants and Animals

Pushes and Pulls

Sunlight and Weather

Animal and Plant Defenses

Light and Sound

Spinning Earth

Plant and Animal Relationships

Properties of Materials

Changing Landforms

Balancing Forces

Environments and Survival

Inheritance and Traits

Weather and Climate

Energy Conversions

Earth’s Features

Vision and Light

Waves, Energy, and Information

Patterns of Earth and Sky

Ecosystem Restoration

The Earth System

Modeling Matter

Grades 6–8 Integrated Model

Grades 6–8 Discipline Specific Model

Preview the Student Investigation Notebooks and science articles

Grade 6

Microbiome Student Investigation Notebook with Article Compilation

Populations and Resources Student Investigation Notebook with Article Compilation

Matter and Energy in Ecosystems Student Investigation Notebook with Article Compilation

Force and Motion Student Investigation Notebook with Article Compilation

Force and Motion Engineering Internship Student Investigation Notebook with Article Compilation

Magnetic Fields Student Investigation Notebook with Article Compilation

Earth, Moon, and Sun Student Investigation Notebook with Article Compilation

Light Waves Student Investigation Notebook with Article Compilation

Grade 6 Louisiana Student Companion

Grade 7

Metabolism Student Investigation Notebook with Article Compilation

Metabolism Engineering Internship Student Investigation Notebook with Article Compilation

Phase Change Student Investigation Notebook with Article Compilation

Chemical Reactions Student Investigation Notebook with Article Compilation

Traits and Reproduction Student Investigation Notebook with Article Compilation

Ocean, Atmosphere, and Climate Student Investigation Notebook with Article Compilation

Weather Patterns Student Investigation Notebook with Article Compilation

Earth’s Changing Climate Student Investigation Notebook with Article Compilation

Grade 7 Louisiana Student Companion

Grade 8

Geology on Mars Student Investigation Notebook with Article Compilation

Plate Motion Student Investigation Notebook with Article Compilation

Plate Motion Engineering Internship Student Investigation Notebook with Article Compilation

Rock Transformations Student Investigation Notebook with Article Compilation

Thermal Energy Student Investigation Notebook with Article Compilation

Natural Selection Student Investigation Notebook with Article Compilation

Natural Selection Engineering Internship Student Investigation Notebook with Article Compilation

Evolutionary History Student Investigation Notebook with Article Compilation

Grade 8 Louisiana Student Companion

Review the digital teacher’s guide

  1. Click on the orange button below.
  2. Select “Log in with Amplify”.
  3. Sign in with this username and password:

Username: t.LouisianaReview@tryamplify.net
Password: AmplifyNumber1

Log in

Navigational Guides

Watch the video
Get an overview of navigating the digital Teacher’s Guide

Preview the Student Investigation Notebooks and science articles

Grade 6

Microbiome Student Investigation Notebook with Article Compilation

Populations and Resources Student Investigation Notebook with Article Compilation

Matter and Energy in Ecosystems Student Investigation Notebook with Article Compilation

Force and Motion Student Investigation Notebook with Article Compilation

Force and Motion Engineering Internship Student Investigation Notebook with Article Compilation

Magnetic Fields Student Investigation Notebook with Article Compilation

Earth, Moon, and Sun Student Investigation Notebook with Article Compilation

Light Waves Student Investigation Notebook with Article Compilation

Grade 6 Louisiana Student Companion

Grade 7

Metabolism Student Investigation Notebook with Article Compilation

Metabolism Engineering Internship Student Investigation Notebook with Article Compilation

Phase Change Student Investigation Notebook with Article Compilation

Chemical Reactions Student Investigation Notebook with Article Compilation

Traits and Reproduction Student Investigation Notebook with Article Compilation

Ocean, Atmosphere, and Climate Student Investigation Notebook with Article Compilation

Weather Patterns Student Investigation Notebook with Article Compilation

Earth’s Changing Climate Student Investigation Notebook with Article Compilation

Grade 7 Louisiana Student Companion

Grade 8

Geology on Mars Student Investigation Notebook with Article Compilation

Plate Motion Student Investigation Notebook with Article Compilation

Plate Motion Engineering Internship Student Investigation Notebook with Article Compilation

Rock Transformations Student Investigation Notebook with Article Compilation

Thermal Energy Student Investigation Notebook with Article Compilation

Natural Selection Student Investigation Notebook with Article Compilation

Natural Selection Engineering Internship Student Investigation Notebook with Article Compilation

Evolutionary History Student Investigation Notebook with Article Compilation

Grade 8 Louisiana Student Companion

Welcome to Amplify Science 6–8!

Amplify Science is an engaging core curriculum designed for three-dimensional, phenomena-based learning.

With Amplify Science, Oregon students don’t just passively learn about science concepts. Instead, they take on the role of scientists and engineers to actively investigate and figure out real-world phenomena. They do this through a blend of cohesive and compelling storylines, hands-on investigations, collaborative discussions, literacy-rich activities, and interactive digital tools.

Two students, one black and one asian, smiling and studying together at a laptop in a classroom with other students in background.

Publisher presentation

The Lawrence Hall of Science

Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify, our program features:

  • phenomena-based approach where students construct a complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Carefully crafted units, chapters, lessons, and activities designed to deliver true 3-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.
Aerial view of the lawrence hall of science at the university of california, berkeley, showcasing the building and surrounding trees with a foggy city backdrop.

Proven to work

A pdf cover from wested titled "learning and literacy development together: initial results from a curriculum study," featuring an adult helping children with schoolwork in a classroom.

WestEd Randomized
Control Trial for Grade 1

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Pdf cover titled "curriculum materials designed for the next generation science standards: initial results from gold standard research trials", published by wested.

WestEd Randomized
Control Trial for Grade 7

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A teacher and students engage in a science activity around a table. The text promotes the Amplify Science K–8 curriculum, highlighting its focus on hands-on learning and real-world problem-solving.

Amplify Science NE
Grades K–5

Read More

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

Do

First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

Talk

Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

Read

Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

Write

Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

Visualize

By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers
do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Program structure

Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

It’s this proven program structure and lesson design that enables Amplify Science to address 100% of the NGSS, and support students in mastering the Oregon Science Standards.

Flowchart depicting a critical thinking process with four circular nodes connected by arrows, each node representing a step: posing a real-world problem, exploring evidence, elaborating concepts, and evaluating claims.

Unit types

While every unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, each unit also serves a unique instructional purpose.

In grades 6–8:

  • One unit is a launch unit.
  • Three units are core units.
  • Two units are engineering internships.

Launch units are the first units taught in each year of Amplify Science. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Unit sequence

Our lessons follow a structure that is grounded in regular routines while still being flexible enough to allow for a variety of learning experiences.

In fact, our multi-modal instruction offers more opportunities for students to construct meaning, and practice and apply concepts than any other program. What’s more, our modular design means our units can be flexibly arranged to support your instructional goals.

Three columns listing education curriculum topics for grades 6, 7, and 8, focusing on science themes such as microbiomes, mars geology, and harnessing human energy.

Program components

Available digitally and in print, our unit-specific reference guides are chock full of helpful resources, including scientific background knowledge, planning information and resources, color-coded 3D Statements, detailed lesson plans, tips for delivering instruction, and differentiation strategies.

Amplify Science TG

Hands-on learning is an essential part of Amplify Science, and is integrated into every unit. Students actively participate in science, playing the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations that are critical to achieving the unit’s learning goals.

A young person wearing gloves looks through a microscope at a table with laboratory supplies, including bottles, slides, and a tray, against a plain blue background.

More hands-on with Flextensions:
Hands-on Flextensions are additional, optional investigations that are included at logical points in the learning progression and give students an opportunity to dig deeper if time permits. These activities offer teachers flexibility to choose to dedicate more time to hands-on learning. Materials referenced in Hands-on Flextension activities will either be included in the unit kit or are easily sourced. Supporting resources such as student worksheets will be included as downloadable PDF files.

Assorted office and household items displayed on a white background, including rubber bands, binder clips, cardboard, and sports balls.

Our digital Simulations and Practice Tools are powerful resources for exploration, data collection, and student collaboration. They allow students the ability to explore scientific concepts that might otherwise be invisible or impossible to see with the naked eye.

Available for every unit, our Student Investigation Notebooks contain instructions for activities and space for students to record data and observations, reflect on ideas from texts and investigations, and construct explanations and arguments.

In grades 6–8, one copy of the Student Investigation Notebook is included in each unit’s materials kit for use as a blackline master. Each notebook is also available as a downloadable PDF on the Unit Guide page of the digital Teacher’s Guide.

Two booklets titled "El clima cambiante de la Tierra: la desaparición del hielo" and "Earth’s Changing Climate: Vanishing Ice" with landscape illustrations on the covers.

These customizable PowerPoints are available for every lesson of the program and make delivering instruction a snap with visual prompts, colorful activity instructions, investigation set-up videos and animations, and suggested teacher talk in the notes section of each slide.

Amplify Science Classroom Slides

Full coverage of the Oregon Science Standards

Amplify Science was designed from the ground up to meet the Next Generation Science Standards (NGSS). As such, it aligns to the Oregon Science Standards, which were also borne out of the NGSS.

The guidance below is meant to provide support for integrating additional activities that support full coverage of Oregon’s standards. Organized by grade level, each section below will outline:

  • Additional activities that support 100% alignment to the Oregon Science Standards.
  • The standard being addressed with the activities.
  • The recommended placement of the activities within a specific Amplify Science unit.
  • PDFs of any accompanying materials that are necessary to implement the activities.

Activity Title: Meet a Scientist Who Changed How We Think About Brain Cells

About this activity: In this activity, students read a short article about a scientist who studied the nervous system.

Recommended placement: Metabolism unit, Lesson 3.2

Materials:

Instructions: Download the PDF “Meet a Scientist Who Changed How We Think About Brain Cells” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Meet a Scientist Who Studies Underwater Currents

About this activity: In this activity, students read a short article about a scientist who studies ocean currents.

Recommended placement: Oceans, Atmosphere, and Climate unit, Lesson 2.1

Materials:

Instructions: Download the PDF “Meet a Scientist Who Studies Underwater Currents” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Meet a Scientist Who Studies How the Environment Affects Our Traits

About this activity: In this activity, students read two short articles, one about current research on genes and proteins, and one about a scientist who is studying how the environment can affect our traits.

Recommended placement: Traits and Reproduction unit, Lesson 2.4

Materials:

Instructions: Download the PDF “Meet a Scientist Who Studies How the Environment Affects Our Traits” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Who Becomes a Space Scientist?

About this activity: In this activity, Students read a short article about a scientist who studies space.

Recommended placement: Geology on Mars unit, Lesson 3.1

Materials:

Instructions: Download the PDF “Who Becomes a Space Scientist?” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Meet a Scientist Who Studies How Plants Find Water Underground

About this activity: In this activity, students read a short article about a scientist who studies how plants’ roots get water.

Recommended placement: Matter and Energy in Ecosystems unit, Lesson 1.6

Materials:

Instructions: Download the PDF “Meet a Scientist Who Studies How Plants Find Water Underground” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Bringing Back the Buffalo

About this activity: In this activity, students change one competing population to try to decrease the other in the Sim, and read a short article about a scientist who studies buffalo.

Recommended placement: Populations and Resources unit, Lesson 3.2

Materials:

Instructions: Download the PDF “Bringing Back the Buffalo” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Rereading “A Continental Puzzle”

About this activity: In this activity, students reread “A Continental Puzzle” and think about how patterns were helpful to Wegener’s work.

Recommended placement: Plate Motion unit, Lesson 3.2

Materials:

Instructions: Direct students back to “A Continental Puzzle” above and remind students of the Active Reading guidelines. Before students re-read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Meet a Scientist Who Studies Variation in Monkey Populations

About this activity: In this activity, students read a short article about a scientist who studies variation of traits in monkey populations.

Recommended placement: Natural Selection unit, Lesson 1.6

Materials:

Instructions: Download the PDF “Meet a Scientist Who Studies Variation in Monkey Populations” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Extinctions and Human Impacts

About this activity: The purpose of this lesson is for students to see how increases in human population and consumption of natural resources can negatively impact Earth’s systems.

Recommended placement: Natural Selection unit, Lesson 4.5

Materials:

Instructions: Download the PDF “Extinctions and Human Impacts” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Steno and the Shark

About this activity: In this activity, students read a short article about Nicolas Steno, a scientist from the 1600s whose studies of fossilized sharks’ teeth embedded in rock layers laid the foundation for the modern understanding of stratigraphy.

Recommended placement: Evolutionary History unit, Lesson 2.4

Materials:

Instructions: Download the PDF “Steno and the Shark” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Scale in the Solar System

About this activity: In this activity, students read and annotate the articles “Scale in the Solar System” and “The Solar System Is Huge.”

Recommended placement: Earth, Moon, and Sun unit, Lesson 1.2

Materials:

Instructions: Download the PDF “Scale in the Solar System” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Explore your print samples

With your Amplify Science print samples, you’ll find unit-specific Teacher’s References Guides and Student Investigation Notebooks for each grade level.

A note about the Teacher’s Reference Guides:

It’s important that your committee sees the full breadth and depth of our instruction. For that reason, we provided a copy of each of our unit-specific Teacher Reference Guides.

Rest assured that teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free TG!

Three laptop screens displaying educational content on earth's energy system, including diagrams and text annotations.
  • Teacher Reference Guide: Unlike a typical TG that requires a series of supplemental books to support it, our encyclopedic reference guide is chock-full of everything a teacher needs to fully implement our program and the NGSS.
  • Ready-to-Teach Lesson Slides: For daily instruction, teachers need their hands free. That’s why we created ready-to-teach lesson slides for every single lesson. What’s more, they are editable and include suggested teacher talk and point-of-use differentiation and other instructional tips. Click to learn more.

A note about the Materials Kits:

Hands-on learning is at the heart of Amplify Science, and is integrated into every unit. In order to make hands-on learning more manageable for busy teachers, Amplify Science materials are organized into unit-specific kits.

Our unit-specific kits:

  • Include more materials — We give teachers enough materials to support 200 student uses.
  • Are more manageable — Unlike other programs that require large groups of students to share limited sets of materials, our kits include enough to support small groups of 4–5 students.
  • Include supportive videos — Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

At your request, we did not include our materials kits with our submissions samples. However, we did provide grade-specific lists of all materials included in each kit, which you can also find with the links below.

Access your digital samples

Explore as a teacher

Follow these instructions to explore the Amplify Science digital platform as a teacher.

  • Click the Access Amplify Science Platform button below and bookmark it.
  • Select Log in with Amplify.
  • Enter the username: t.or68sci@tryamplify.net
  • Enter the password: Science5OR
  • Click the Science icon.
  • Click on the Grade Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

To help familiarize yourself with navigating the digital platform, watch the below navigational video.

Explore as a student

Follow these instructions to explore the Amplify Science digital platform as a student.

  • Click the Access Amplify Science Platform button below and bookmark it.
  • Select Log in with Amplify.
  • Enter the username: s.or68sci@tryamplify.net
  • Enter the password: Science5OR
  • Click the Science icon.
  • Click on the Grade Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

Resources to support your review

Publisher presentation

The Lawrence Hall of Science

Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify, our program features:

  • phenomena-based approach where students construct a complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Carefully crafted units, chapters, lessons, and activities designed to deliver true 3-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.
Amplify Science and Lawrence Hall of Science

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO

First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

TALK

Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ

Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE

Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE

By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Program structure

Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

It’s this proven program structure and lesson design that enables Amplify Science to address 100% of the NGSS, and support students in mastering the Oregon Science Standards.

Graphic showing a research process with four steps: spark intrigue with a real-world problem, explore evidence, explain and elaborate, and evaluate claims, connected in a cycle with arrows.

Unit types

While every unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, each unit also serves a unique instructional purpose.

In grades 6–8:

  • One unit is a launch unit.
  • Three units are core units.
  • Two units are engineering internships.

Launch units are the first units taught in each year of Amplify Science. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Unit sequence

Our lessons follow a structure that is grounded in regular routines while still being flexible enough to allow for a variety of learning experiences.

In fact, our multi-modal instruction offers more opportunities for students to construct meaning, and practice and apply concepts than any other program. What’s more, our modular design means our units can be flexibly arranged to support your instructional goals.

Three columns listing education curriculum topics for grades 6, 7, and 8, focusing on science themes such as microbiomes, mars geology, and harnessing human energy.

Program components

Available digitally and in print, our unit-specific reference guides are chock full of helpful resources, including scientific background knowledge, planning information and resources, color-coded 3-D Statements, detailed lesson plans, tips for delivering instruction, and differentiation strategies.

Amplify Science TG

Hands-on learning is an essential part of Amplify Science, and is integrated into every unit. Students actively participate in science, playing the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations that are critical to achieving the unit’s learning goals.

A young person wearing gloves looks through a microscope at a table with laboratory supplies, including bottles, slides, and a tray, against a plain blue background.

More hands-on with Flextensions:
Hands-on Flextensions are additional, optional investigations that are included at logical points in the learning progression and give students an opportunity to dig deeper if time permits. These activities offer teachers flexibility to choose to dedicate more time to hands-on learning. Materials referenced in Hands-on Flextension activities will either be included in the unit kit or are easily sourced. Supporting resources such as student worksheets will be included as downloadable PDF files.

Our kits include enough materials to support 200 student uses. In other words, teachers can easily support all five periods and small groups of 4-5 students each. Plus, our unit-specific kits mean teachers just grab the tub they need and then put it all back with ease.

Amplify Science California supports 3-D learning with more materials than any other program.

Our digital Simulations and Practice Tools are powerful resources for exploration, data collection, and student collaboration. They allow students the ability to explore scientific concepts that might otherwise be invisible or impossible to see with the naked eye.

Available for every unit, our Student Investigation Notebooks contain instructions for activities and space for students to record data and observations, reflect on ideas from texts and investigations, and construct explanations and arguments.

In grades 6–8, one copy of the Student Investigation Notebook is included in each unit’s materials kit for use as a blackline master. Each notebook is also available as a downloadable PDF on the Unit Guide page of the digital Teacher’s Guide.

Two booklets titled "El clima cambiante de la Tierra: la desaparición del hielo" and "Earth’s Changing Climate: Vanishing Ice" with landscape illustrations on the covers.

These customizable PowerPoints are available for every lesson of the program and make delivering instruction a snap with visual prompts, colorful activity instructions, investigation set-up videos and animations, and suggested teacher talk in the notes section of each slide.

A laptop displays a PowerPoint presentation in presenter view, with slides about observing objects in plastic containers and related sensory instructions.

Full coverage of the Oregon Science Standards

Amplify Science was designed from the ground up to meet the Next Generation Science Standards (NGSS). As such, it aligns to the Oregon Science Standards, which were also borne out of the NGSS.

The guidance below is meant to provide support for integrating additional activities that support full coverage of Oregon’s standards. Organized by grade level, each section below will outline:

  • Additional activities that support 100% alignment to the Oregon Science Standards.
  • The standard being addressed with the activities.
  • The recommended placement of the activities within a specific Amplify Science unit.
  • PDFs of any accompanying materials that are necessary to implement the activities.

Activity Title: Meet a Scientist Who Changed How We Think About Brain Cells

About this activity: In this activity, students read a short article about a scientist who studied the nervous system.

Recommended placement: Metabolism unit, Lesson 3.2

Materials:

Instructions: Download the PDF “Meet a Scientist Who Changed How We Think About Brain Cells” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Meet a Scientist Who Studies Underwater Currents

About this activity: In this activity, students read a short article about a scientist who studies ocean currents.

Recommended placement: Oceans, Atmosphere, and Climate unit, Lesson 2.1

Materials:

Instructions: Download the PDF “Meet a Scientist Who Studies Underwater Currents” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Meet a Scientist Who Studies How the Environment Affects Our Traits

About this activity: In this activity, students read two short articles, one about current research on genes and proteins, and one about a scientist who is studying how the environment can affect our traits.

Recommended placement: Traits and Reproduction unit, Lesson 2.4

Materials:

Instructions: Download the PDF “Meet a Scientist Who Studies How the Environment Affects Our Traits” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Who Becomes a Space Scientist?

About this activity: In this activity, Students read a short article about a scientist who studies space.

Recommended placement: Geology on Mars unit, Lesson 3.1

Materials:

Instructions: Download the PDF “Who Becomes a Space Scientist?” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Meet a Scientist Who Studies How Plants Find Water Underground

About this activity: In this activity, students read a short article about a scientist who studies how plants’ roots get water.

Recommended placement: Matter and Energy in Ecosystems unit, Lesson 1.6

Materials:

Instructions: Download the PDF “Meet a Scientist Who Studies How Plants Find Water Underground” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Bringing Back the Buffalo

About this activity: In this activity, students change one competing population to try to decrease the other in the Sim, and read a short article about a scientist who studies buffalo.

Recommended placement: Populations and Resources unit, Lesson 3.2

Materials:

Instructions: Download the PDF “Bringing Back the Buffalo” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Rereading “A Continental Puzzle”

About this activity: In this activity, students reread “A Continental Puzzle” and think about how patterns were helpful to Wegener’s work.

Recommended placement: Plate Motion unit, Lesson 3.2

Materials:

Instructions: Direct students back to “A Continental Puzzle” above and remind students of the Active Reading guidelines. Before students re-read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Meet a Scientist Who Studies Variation in Monkey Populations

About this activity: In this activity, students read a short article about a scientist who studies variation of traits in monkey populations.

Recommended placement: Natural Selection unit, Lesson 1.6

Materials:

Instructions: Download the PDF “Meet a Scientist Who Studies Variation in Monkey Populations” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Extinctions and Human Impacts

About this activity: The purpose of this lesson is for students to see how increases in human population and consumption of natural resources can negatively impact Earth’s systems.

Recommended placement: Natural Selection unit, Lesson 4.5

Materials:

Instructions: Download the PDF “Extinctions and Human Impacts” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Steno and the Shark

About this activity: In this activity, students read a short article about Nicolas Steno, a scientist from the 1600s whose studies of fossilized sharks’ teeth embedded in rock layers laid the foundation for the modern understanding of stratigraphy.

Recommended placement: Evolutionary History unit, Lesson 2.4

Materials:

Instructions: Download the PDF “Steno and the Shark” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Activity Title: Scale in the Solar System

About this activity: In this activity, students read and annotate the articles “Scale in the Solar System” and “The Solar System Is Huge.”

Recommended placement: Earth, Moon, and Sun unit, Lesson 1.2

Materials:

Instructions: Download the PDF “Scale in the Solar System” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. Then have students complete the copymaster above.

Explore your print samples

Amplify Science physical samples can be found at the Hamersley Library at Western Oregon University. There you’ll find unit-specific Teacher’s References Guides and Student Investigation Notebooks for each grade level.

A note about the Teacher’s Reference Guides:

It’s important that your committee sees the full breadth and depth of our instruction. For that reason, we provided a copy of each of our unit-specific Teacher Reference Guides.

Rest assured that teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free TG!

A laptop screen shows an energy simulation, with surrounding text and diagrams explaining the Earth's system and energy flow.
  • Teacher Reference Guide: Unlike a typical TG that requires a series of supplemental books to support it, our encyclopedic reference guide is chock-full of everything a teacher needs to fully implement our program and the NGSS.
  • Ready-to-Teach Lesson Slides: For daily instruction, teachers need their hands free. That’s why we created ready-to-teach lesson slides for every single lesson What’s more, they are editable and include suggested teacher talk and point-of-use differentiation and other instructional tips. Click to learn more.

A note about the Materials Kits:

Hands-on learning is at the heart of Amplify Science, and is integrated into every unit. In order to make hands-on learning more manageable for busy teachers, Amplify Science materials are organized into unit-specific kits.

Stacked storage bins with labels, arranged neatly; caption notes they are a sample and may not reflect actual quantities or sizes.

Our unit-specific kits:

  • Include more materials — We give teachers enough materials to support 200 student uses.
  • Are more manageable — Unlike other programs that require large groups of students to share limited sets of materials, our kits include enough to support small groups of 4–5 students.
  • Include supportive videos — Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

At your request, we did not include our materials kits with our submissions samples. However, we did provide grade-specific lists of all materials included in each kit, which you can also find with the links below.

Access your digital samples

Explore as a teacher

Follow these instructions to explore the Amplify Science digital platform as a teacher.

  • Click the Access Amplify Science Platform button below.
  • Select Log in with Amplify.
  • Enter the teacher username and password found on your unique login flyer enclosed in your physical sample box.
  • Click the Science icon.
  • Click on the Grade Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

To help familiarize yourself with navigating the digital platform, watch the below navigational video.

Explore as a student

Follow these instructions to explore the Amplify Science digital platform as a student.

  • Click the Access Amplify Science Platform button below.
  • Select Log in with Amplify.
  • Enter the student username and password found on your unique login flyer enclosed in your physical sample box.
  • Click the Science icon.
  • Click on the Grade Menu in the top center of the screen and select any grade.
  • Select any unit.
Access Amplify Science Platform

Resources to support your review

Oregon standards correlation for grades 6–8

QCD Science Adoption Criteria 2022 for grades 6-8

QCD IMET Citation guidance for grades 6-8

Oregon Science IMET for grades 6-8 (Excel download)

Oregon QCD-IMET Citation guidance for grades 6-8

Research behind Amplify Science

Phenomena in grades 6–8

Program structure for grades 6–8

Active Reading in grades 6–8

Engineering in Amplify Science

Approaches to assessment in grades 6–8

Kindergarten

Needs of Plants and Animals

Pushes and Pulls

Sunlight and Weather

Grade 1

Animal and Plant Defenses

Light and Sound

Spinning Earth

Grade 2

Plant and Animal Relationships

Properties of Materials

Changing Landforms

Grade 3

Balancing Forces

Environments and Survival

Inheritance and Traits

Weather and Climate

Grade 4

Energy Conversions

Earth’s Features

Vision and Light

Waves, Energy, and Information

Grade 5

Patterns of Earth and Sky

Ecosystem Restoration

The Earth System

Modeling Matter

Grade 6

Grade 7

Grade 8

Amplify Science

A new core curriculum designed from the ground up for the NGSS.

Preview the Student Books and Student Investigation Notebooks

Needs of Plants and Animals

Pushes and Pulls

Sunlight and Weather

Animal and Plant Defenses

Light and Sound

Spinning Earth

Plant and Animal Relationships

Properties of Materials

Changing Landforms

Balancing Forces

Environments and Survival

Inheritance and Traits

Weather and Climate

Energy Conversions

Earth’s Features

Vision and Light

Waves, Energy, and Information

Patterns of Earth and Sky

Ecosystem Restoration

The Earth System

Modeling Matter

Grades 6–8 Integrated Model

Spanish Student Books and Student Investigation Notebooks

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Grade 6

Grade 7

Grade 8

Amplify Science

A new core curriculum designed from the ground up for the NGSS.

Preview the Student Books and Student Investigation Notebooks

Needs of Plants and Animals

Pushes and Pulls

Sunlight and Weather

Animal and Plant Defenses

Light and Sound

Spinning Earth

Plant and Animal Relationships

Properties of Materials

Changing Landforms

Balancing Forces

Environments and Survival

Inheritance and Traits

Weather and Climate

Energy Conversions

Earth’s Features

Vision and Light

Waves, Energy, and Information

Patterns of Earth and Sky

Ecosystem Restoration

The Earth System

Modeling Matter

Grades 6–8 Integrated Model

NGSS Benchmark Assessments

The Amplify NGSS Benchmark Assessments were authored by Amplify and were not developed as part of the Amplify Science program or created by the Lawrence Hall of Science.

Amplify Science

A new core curriculum designed from the ground up for the NGSS.

Grades 6–8 Integrated Model

Spanish Student Books and Student Investigation Notebooks

Grade 6

Grade 7

Grade 8

Inspiring the next generation of South Carolina scientists, engineers, and curious citizens

Amplify Science is an engaging new core curriculum designed for three-dimensional, phenomena-based learning.

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

Collage showing students engaged in classroom science activities and two scientific illustrations: a cheetah in foliage and a diagram of clouds and raindrops above a hill.

Our Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Explore the Digital Teacher’s Guide

When you’re ready to review, click the orange button below and use your provided login credentials to access the Amplify Science Digital Teacher’s Guide. If you need login credentials, contact Jeff Rutter, jrutter@amplify.com.

Review now

Resources to support your review

Scope and sequence

GRADE
UNIT
Kindergarten
  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
Grade 1 
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
Grade 2 
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
Grade 3 
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
Grade 4 
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
Grade 5 
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration
Grade
Units

Grade 6
  • Launch: Microbiome
  • Metabolism
  • Metabolism Engineering Internship
  • Thermal Energy
  • Plate Motion
  • Plate Motion Engineering Internship
  • Rock Transformations
  • Weather Patterns
  • Ocean, Atmosphere, and Climate

Grade 7
  • Launch: Harnessing Human Energy
  • Phase Change
  • Phase Change Engineering Internship
  • Magnetic Fields
  • Earth’s Changing Climate
  • Earth’s Changing Climate Engineering Internship
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems

Grade 8
  • Launch: Geology on Mars
  • Earth, Moon, and Sun
  • Light Waves
  • Force and Motion
  • Force and Motion Engineering Internship
  • Traits and Reproduction
  • Natural Selection
  • Natural Selection Engineering Internship
  • Evolutionary History

South Carolina College- and Career-Ready Science Standards 2021

Amplify Science was designed from the ground up to meet the Next Generation Science Standards (NGSS), and the South Carolina College- and Career-Ready Science Standards 2021 are closely aligned to the NGSS at K-8. The guidance below is meant to provide support for integrating additional companion activities that support full coverage of the South Carolina College- and Career-Ready Science Standards 2021.

Organized by grade level, each section below will outline:

  • Additional activities that support 100% alignment to the  South Carolina College- and Career-Ready Science Standards 2021; 
  • The standard being addressed with the activities; 
  • The recommended placement of the activities within a specific Amplify Science unit; and 
  • PDFs of any accompanying materials that are necessary to implement the activities.

Standard: MS-PS1-4: Develop a model that predicts and describes changes in particle motion, temperature, and state of a pure substance when thermal energy is added or removed.
Recommended placementThermal Energy unit, Lesson 4.4, addition to Activity 3
Materials“Liquid Oxygen”
By reading the article “Liquid Oxygen,” which describes how the relationship between attraction and kinetic energy determines when a substance changes phase, students extend their understanding of the possible effects of adding or removing thermal energy to include changes in state (phase). Oxygen is one of the most common elements in the world, but most people are only familiar with oxygen in the gas phase. Because oxygen molecules are only weakly attracted to one another, condensing oxygen is difficult. This article introduces students to molecular attraction and discusses its role in phase change, including how it can be used to turn oxygen from a gas to a liquid.
Instructions:
Download PDFs of the “Liquid Oxygen” and distribute it to students. Before they begin reading, remind students of the Active Reading Guidelines. 

Standard: MS-PS4-2: Develop and use a model to describe that waves are reflected, absorbed, or transmitted through various materials.
Recommended placementWeather Patterns unit, Lesson 4.4, addition to Activity 3
Materials“Harvesting Sunlight”, “Why No One in Space Can Hear You Scream” and “Making Waves at Swim Practice”
After investigating weather patterns, which includes a focus of the effects of energy from sunlight, students extend their learning about light by reading three articles about light and other waves.
“Harvesting Sunlight:” Students read this article to learn about the types of light from the sun that plants use for photosynthesis. The article describes how the sun emits all types of light, but plants can only use certain types of visible light for photosynthesis, mostly red and blue light. Plants also absorb other types of light, and these types of light affect plants in different ways. Students use this information to gather evidence that there are different types of light that can affect a material in different ways.
“Why No One in Space Can Hear You Scream:” Students read this article to learn about how waves are transmitted. Explosions that would be deafening on Earth are silent in space. This is because sound is produced by sound waves and, unlike light waves, sound waves need matter to travel through. Reading about this phenomenon helps students understand the similarities and differences between mechanical and electromagnetic waves.
“Making Waves at Swim Practice:” A practice for the school swim team provides an everyday context for discussing light waves and sound waves in this engaging article. First, the article explores sound waves traveling through different materials–the air, the water of the pool, and even a metal poolside bench. Students discover that sound waves travel at different speeds in different materials. The later part of the article discusses light waves, which also travel at different speeds in different materials. As light waves move from one material to another, they change speed and bend. This bending of light waves is called refraction, and it explains why objects that are partly in the water and partly out of the water (such as the legs of a person sitting on the side of a pool) appear ripply and bent.
Instructions:
Plan one class period for each article. Download PDFs of the  “Harvesting Sunlight,” “Why No One in Space Can Hear You Scream,” and “Making Waves at Swim Practice” articles. For each article, before students begin reading, preview the article and discuss what students already know and what they wonder about the topic, then remind students of the Active Reading Guidelines. 

Standard: MS-PS2-3: Ask questions about data to determine the factors that affect the strength of electric and magnetic forces. MS-PS2-5: Conduct an investigation and evaluate the experimental design to provide evidence that fields exist between objects exerting forces on each other even though the objects are not in contact.
Recommended placementHarnessing Human Energy unit, Lesson 3.4, after Activity 1
Materials“Earth’s Geomagnetism” and “Painting with Static Electricity”
After concluding their investigations of energy transfers and conversions, students read two articles that introduce the topic of forces that act at a distance.
“Earth’s Geomagnetism:” What makes a compass needle point north, no matter what? This article introduces students to Earth’s geomagnetic field and the field lines scientists use to show its direction.
“Painting with Static Electricity:” This article gives students the opportunity to learn about electrostatic fields and forces in the context of spray painting without making a mess. Electrostatic painting systems use electrostatics to draw spray paint toward the object being painted, and nowhere else. Painters charge the object they are painting with a negative charge and the paint with a positive charge. The opposite charges are attracted to one another, causing the paint to move toward the object. This surprising use of electrostatics saves time and paint and keeps things tidy!
Instructions
Plan one class period for each article. Download PDFs of the “Earth’s Geomagnetism” and “Painting with Electricity” articles. For each article, before students begin reading, preview the article and discuss what students already know and what they wonder about the topic, then remind students of the Active Reading Guidelines. 

What’s included

Science articles
The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Illustration of the indirect effects of overfishing on northern benguela jelly populations displayed on a laptop screen.

Student Investigation Notebooks
Available for every unit, the Student Investigation Notebooks provide space for students to:

  • Record data
  • Reflect on ideas from texts and investigations
  • Construct explanations and arguments

Available with full-color article compilations for middle school units.

Collection of educational books from 'amplify science' on topics including ocean atmosphere, matter and energy ecosystems, and insect interactions, displayed in various angles.

Digital student experience
Students access the digital simulations and modeling tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • Conduct hands-on investigations
  • Engage in active reading and writing activities
  • Participate in discussions
  • Record observations
  • Craft end-of-unit scientific arguments
A digital illustration showcasing a laptop and a tablet displaying complex data analysis software interfaces with graphs and heatmaps.

Teacher’s Guides
Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • Classroom Slides
  • Detailed lesson plans
  • Unit and chapter overview documentation
  • Differentiation strategies
  • Standards alignments
  • In-context professional development
A laptop displaying a website about Mars exploration with a brochure next to it. Both screens show Mars-related images.

Hands-on materials kits
Hands-on learning is at the heart of Amplify Science. Each unit kit contains:

  • Consumable and non-consumable hands-on materials
  • Print classroom display materials
  • Premium print materials for student use (sorting cards, maps, etc.)
A perforated rectangular board, three small containers with different powders, a black battery holder with red wires, and three colored alligator clips are arranged on a white background.

Remote and hybrid learning supports

A person sitting at a desk using a laptop, with a bookshelf containing books, a fish tank, and a soccer ball nearby.

Amplify has launched a new remote learning solution called Amplify Science@Home. Intended to make extended remote learning and hybrid learning easier, Amplify Science@Home includes two useful options for continuing instruction: @Home Videos and @Home Units. 

Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home. These videos will be produced for all K–5 units, and for the first four units of each 6–8 grade level. Their release will be rolling, beginning in August.   

Amplify Science@Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @Home Units will be developed for all Amplify Science K–8 units. Each @Home unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available.
  • Overviews to send home to families.

Student materials are available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home.
  • Downloadable @Home Packets (PDF) for students without access to technology at home.

Download the Remote and hybrid learning guide.

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We have developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans
  • Information on where to locate standards and other planning materials
  • Recommendations and tips for day-to-day teaching with Amplify programs
  • Support with administering and interpreting assessment data and more

To reach our pedagogical team, use our live chat within your program, call (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 7 a.m. to 7 p.m. ET, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program
  • Call our toll-free number: (800) 823-1969

For less urgent questions:

Email support

Contact us

Contact your South Carolina team representatives:
Jeff Rutter
Field Manager
jrutter@amplify.com
(727) 512-8440

Cathy McMillan
Senior Account Executive
cmcmillan@amplify.com
(904) 465-9904

Our Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Supporting resources

Scope and sequence

GRADE

UNITS

Kindergarten

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

GRADE

UNITS

Grade 6

  • Launch: Microbiome
  • Metabolism
  • Metabolism Engineering Internship
  • Thermal Energy
  • Plate Motion
  • Plate Motion Engineering Internship
  • Rock Transformations
  • Weather Patterns
  • Ocean, Atmosphere, and Climate

Grade 7

  • Launch: Harnessing Human Energy
  • Phase Change
  • Phase Change Engineering Internship
  • Magnetic Fields
  • Earth’s Changing Climate
  • Earth’s Changing Climate Engineering Internship
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems

Grade 8

  • Launch: Geology on Mars
  • Earth, Moon, and Sun
  • Light Waves
  • Force and Motion
  • Force and Motion Engineering Internship
  • Traits and Reproduction
  • Natural Selection
  • Natural Selection Engineering Internship
  • Evolutionary History

South Carolina College- and Career-Ready Science Standards 2021

Amplify Science was designed from the ground up to meet the Next Generation Science Standards (NGSS), and the South Carolina College- and Career-Ready Science Standards 2021 are closely aligned to the NGSS at K-8. The guidance below is meant to provide support for integrating additional companion activities that support full coverage of the South Carolina College- and Career-Ready Science Standards 2021.

Organized by grade level, each section below will outline:

  • Additional activities that support 100% alignment to the  South Carolina College- and Career-Ready Science Standards 2021; 
  • The standard being addressed with the activities; 
  • The recommended placement of the activities within a specific Amplify Science unit; and 
  • PDFs of any accompanying materials that are necessary to implement the activities.

Standard: MS-PS1-4: Develop a model that predicts and describes changes in particle motion, temperature, and state of a pure substance when thermal energy is added or removed.
Recommended placementThermal Energy unit, Lesson 4.4, addition to Activity 3
Materials“Liquid Oxygen”
By reading the article “Liquid Oxygen,” which describes how the relationship between attraction and kinetic energy determines when a substance changes phase, students extend their understanding of the possible effects of adding or removing thermal energy to include changes in state (phase). Oxygen is one of the most common elements in the world, but most people are only familiar with oxygen in the gas phase. Because oxygen molecules are only weakly attracted to one another, condensing oxygen is difficult. This article introduces students to molecular attraction and discusses its role in phase change, including how it can be used to turn oxygen from a gas to a liquid.
Instructions:
Download PDFs of the “Liquid Oxygen” and distribute it to students. Before they begin reading, remind students of the Active Reading Guidelines. 

Standard: MS-PS4-2: Develop and use a model to describe that waves are reflected, absorbed, or transmitted through various materials.
Recommended placementWeather Patterns unit, Lesson 4.4, addition to Activity 3
Materials“Harvesting Sunlight”, “Why No One in Space Can Hear You Scream” and “Making Waves at Swim Practice”
After investigating weather patterns, which includes a focus of the effects of energy from sunlight, students extend their learning about light by reading three articles about light and other waves.
“Harvesting Sunlight:” Students read this article to learn about the types of light from the sun that plants use for photosynthesis. The article describes how the sun emits all types of light, but plants can only use certain types of visible light for photosynthesis, mostly red and blue light. Plants also absorb other types of light, and these types of light affect plants in different ways. Students use this information to gather evidence that there are different types of light that can affect a material in different ways.
“Why No One in Space Can Hear You Scream:” Students read this article to learn about how waves are transmitted. Explosions that would be deafening on Earth are silent in space. This is because sound is produced by sound waves and, unlike light waves, sound waves need matter to travel through. Reading about this phenomenon helps students understand the similarities and differences between mechanical and electromagnetic waves.
“Making Waves at Swim Practice:” A practice for the school swim team provides an everyday context for discussing light waves and sound waves in this engaging article. First, the article explores sound waves traveling through different materials–the air, the water of the pool, and even a metal poolside bench. Students discover that sound waves travel at different speeds in different materials. The later part of the article discusses light waves, which also travel at different speeds in different materials. As light waves move from one material to another, they change speed and bend. This bending of light waves is called refraction, and it explains why objects that are partly in the water and partly out of the water (such as the legs of a person sitting on the side of a pool) appear ripply and bent.
Instructions:
Plan one class period for each article. Download PDFs of the  “Harvesting Sunlight,” “Why No One in Space Can Hear You Scream,” and “Making Waves at Swim Practice” articles. For each article, before students begin reading, preview the article and discuss what students already know and what they wonder about the topic, then remind students of the Active Reading Guidelines. 

Standard: MS-PS2-3: Ask questions about data to determine the factors that affect the strength of electric and magnetic forces. MS-PS2-5: Conduct an investigation and evaluate the experimental design to provide evidence that fields exist between objects exerting forces on each other even though the objects are not in contact.
Recommended placementHarnessing Human Energy unit, Lesson 3.4, after Activity 1
Materials“Earth’s Geomagnetism” and “Painting with Static Electricity”
After concluding their investigations of energy transfers and conversions, students read two articles that introduce the topic of forces that act at a distance.
“Earth’s Geomagnetism:” What makes a compass needle point north, no matter what? This article introduces students to Earth’s geomagnetic field and the field lines scientists use to show its direction.
“Painting with Static Electricity:” This article gives students the opportunity to learn about electrostatic fields and forces in the context of spray painting without making a mess. Electrostatic painting systems use electrostatics to draw spray paint toward the object being painted, and nowhere else. Painters charge the object they are painting with a negative charge and the paint with a positive charge. The opposite charges are attracted to one another, causing the paint to move toward the object. This surprising use of electrostatics saves time and paint and keeps things tidy!
Instructions
Plan one class period for each article. Download PDFs of the “Earth’s Geomagnetism” and “Painting with Electricity” articles. For each article, before students begin reading, preview the article and discuss what students already know and what they wonder about the topic, then remind students of the Active Reading Guidelines. 

What’s included

Science articles
The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Student Investigation Notebooks
Available for every unit, the Student Investigation Notebooks provide space for students to:

  • Record data
  • Reflect on ideas from texts and investigations
  • Construct explanations and arguments

Available with full-color article compilations for middle school units.

Cuatro folletos blancos con detalles en naranja brillante y varias imágenes de temas de la naturaleza en las portadas. Los títulos son parcialmente visibles, centrándose en información sobre el agua y sus usos.

Digital student experience
Students access the digital simulations and modeling tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • Conduct hands-on investigations
  • Engage in active reading and writing activities
  • Participate in discussions
  • Record observations
  • Craft end-of-unit scientific arguments
Una fotografía de tres pantallas de computadora que muestran diferentes interfaces de software: código sobre un fondo negro, un mapa de calor del clima y un entorno de programación gráfico.

Teacher’s Guides
Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • Classroom Slides
  • Detailed lesson plans
  • Unit and chapter overview documentation
  • Differentiation strategies
  • Standards alignments
  • In-context professional development
A laptop displaying the Geology on Mars webpage sits beside a book titled "Geology on Mars," both featuring the same cover image of Mars and a spacecraft, perfect for enhancing three-dimensional learning in any science classroom.

Hands-on materials kits
Hands-on learning is at the heart of Amplify Science. Each unit kit contains:

  • Consumable and non-consumable hands-on materials
  • Print classroom display materials
  • Premium print materials for student use (sorting cards, maps, etc.)
A perforated rectangular board, three small containers with different powders, a black battery holder with red wires, and three colored alligator clips are arranged on a white background.

Remote and hybrid learning supports

Una persona sentada en un escritorio usando una computadora portátil, con una estantería que contiene libros, una pecera y una pelota de fútbol cerca.

Amplify has launched a new remote learning solution called Amplify Science@Home. Intended to make extended remote learning and hybrid learning easier, Amplify Science@Home includes two useful options for continuing instruction: @Home Videos and @Home Units. 

Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home. These videos will be produced for all K–5 units, and for the first four units of each 6–8 grade level. Their release will be rolling, beginning in August.   

Amplify Science@Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @Home Units will be developed for all Amplify Science K–8 units. Each @Home unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available.
  • Overviews to send home to families.

Student materials are available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home.
  • Downloadable @Home Packets (PDF) for students without access to technology at home.

Download the Remote and hybrid learning guide.

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We have developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans
  • Information on where to locate standards and other planning materials
  • Recommendations and tips for day-to-day teaching with Amplify programs
  • Support with administering and interpreting assessment data and more

To reach our pedagogical team, use our live chat within your program, call (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 7 a.m. to 7 p.m. ET, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program
  • Call our toll-free number: (800) 823-1969

For less urgent questions:

Email support

Contact us

Contact your South Carolina team representatives:
Jeff Rutter
Field Manager
jrutter@amplify.com
(727) 512-8440

Lisa Jurovaty
Account Executive (West South Carolina)
ljurovaty@amplify.com
(803) 526-1899

Cathy McMillan (East South Carolina)
Senior Account Executive
cmcmillan@amplify.com
(904) 465-9904

Inspiring the next generation of Alabama scientists, engineers, and curious citizens

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Amplify Science – West Virginia – state review

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Welcome, Idaho science reviewers!

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Middle-of-year pilot

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Welcome to Amplify Desmos Math California!

California educators, welcome to math that motivates. Introducing Amplify Desmos Math California, a new, curiosity-driven TK–12 program that builds lifelong math proficiency. Each lesson poses problems that invite a variety of approaches before guiding students to synthesize their understanding of the learning goals. Students encounter math problems they are eager to solve; teachers spend more time where it’s most impactful: creating a collaborative classroom of learners.

Scroll to learn more about the program and explore sample materials.

About the program

Amplify Desmos Math California is a TK–12 core math program designed to meet the CA Math Framework and the Common Core State Standards for Mathematics. Offered in English and Spanish, Amplify Desmos Math California thoughtfully combines conceptual understanding, procedural fluency, and application through a structured approach to problem-based learning. Through engaging activities, Amplify Desmos Math California invites curiosity and math discourse into the classroom to create lifelong math proficiency.

Please scroll to learn more about the K–8 program and explore sample materials. (TK and high school materials are in development and will be available soon.)

A powerful math suite

Amplify Desmos Math California combines the best of assessment, problem-based core lessons, personalized practice, and intervention into a coherent and engaging experience for both students and teachers.

Laptop displaying a math problem interface with student assessment reports in the background.

Assessment

mCLASS benchmark assessments, along with daily formative checks, measure not only what students know, but also how they think. The asset-based assessment system provides teachers with targeted, actionable insights, linked to core instruction and intervention resources. Unit- and lesson-level core assessments give teachers data at their fingertips to guide and differentiate instruction. In grades 3–8, core assessments and performance tasks are designed to prepare students for success on the Smarter Balanced Assessment Consortium (SBAC) testing.

Core instruction

Amplify Desmos Math California core lessons pair problems students are eager to solve with clear instructional moves for teachers. Each lesson is designed to tell a story by posing problems that invite a variety of approaches before guiding students to synthesize their understanding of the learning goals. With built-in differentiation and Multilingual / English Learner support, Amplify Desmos Math California will allow every student to find success in the math classroom.

An educational game screen with a worm on a log and numbered blocks. Adjacent is a worksheet titled "Finding the Missing Pair" with instructions and incomplete equations.
A digital educational screen showing a math problem about converting meters to centimeters. It involves a diving toy sinking 5 meters into a pool. Text prompts users to input the conversion.

Personalized learning

Boost Personalized Learning activities help students access grade-level math through engaging, independent digital practice. Responsive Feedback adjusts to students’ work, providing item-level adaptivity to further support their learning.

Intervention

Integrated resources like Mini-Lessons, Fluency Practice, and Math Adventures provide targeted intervention on a specific concept or skill connected to the daily lesson. Extensions are also available to stretch students’ understanding.

Two pages of a math workbook displaying exercises on determining coordinates after rotation. The pages include diagrams, tables, and practice problems.
Network diagram with interconnected nodes labeled: Measure and Compare Objects, Represent Data, Dollars and Cents, Problem Solving with Measure, Skip Counting to 100, Number Strategies, Squares in an Array, Seeing Fraction in Shapes.

Big Ideas

The CA Mathematics Framework encourages a shift from power standards to thinking about math as a series of connected Big Ideas. Each Amplify Desmos Math California lesson supports one or more Big Ideas and the connections between Big Ideas. The grade-level diagram changes through the course based on the math concepts being addressed.

Focus, coherence, and rigor

Each lesson highlights why the content being covered is important, how students will engage with the mathematics, and what students will do with the learning. Our lesson opener helps teachers understand the most important concepts of the lesson, and includes the Drivers of Investigation (DI), Content Connections (CC), and Standards for Mathematical Practice (SMP) that drive learning in each lesson.

An educational slide on addition story problems, detailing goals for solving problems, language goals, and strategies using equal expressions, tens and ones, and number sense.
A screen titled "Match the Score" with a 2D target graph showing various scores. Instructions request four ordered pairs to total 400. Four pairs are listed: (4, 2), (7, 4), (7, 6), (10, 6). A "Try again" button is shown.

Built-in authentic tasks

Mathematics is not learning in isolation. Students are connected to each other’s thinking and can use math to understand the world. With accessible invitations to authentic tasks, all students can experience mathematical success. Amplify Desmos Math California provides these authentic invitations in a variety of ways:

Each unit begins with an “Explore” lesson, which allows students to engage with authentic exploration in low-floor, high-ceiling tasks. These tasks are designed in such a way that all students can access the basic mathematical concepts, but they also offer possibilities for advanced exploration and problem-solving for those ready for more complex work, promoting an inclusive and differentiated learning environment.

Our innovative course-level investigations are designed to facilitate multipart exploration. Students grapple with Big Ideas, diving deep into key concepts that encourage comprehensive understanding. Data science is infused into the approach, equipping students with a strong foundation in interpreting and applying data-driven solutions. The Environmental Principles and Concepts (EP&Cs) are also a focus of our investigations, enabling students to understand and appreciate the coherence and interrelationship of Earth’s environmental systems.

A focus on multilingual and English learners

Children sitting at desks in a classroom with a large illustrated caterpillar on the wall. Beside them are printed educational materials labeled “Amplify Desmos Math” and “Ying’s Aquarium Story.”.

In building Amplify Desmos Math California, we partnered with the English Learner Success Forum (ELSF) to provide guidance on our multilingual/English learner support for teachers. ELSF is a national nonprofit organization that advocates for high-quality instructional materials that are inclusive of multilingual learners. ELSF’s guiding documents reflect research-based instructional strategies that are critical to curriculum design and were created by researchers, linguists, and practitioners from across the country. ELSF reviewed our materials and provided directional guidance and feedback to ensure that the program fully supports multilingual/English learners.

A component of our K–5 curriculum is the engaging unit stories that interweave mathematics with real-life situations and relatable narratives. These unit stories are specifically crafted to inspire curiosity and foster a deep connection between the learner and the math concepts being explored. This unique approach not only makes learning fun and interesting, but also allows our young learners to see themselves in the math.

To help students grow their domain-specific and academic vocabulary, Amplify Desmos Math California provides embedded vocabulary routines, such as prompting teachers to use a Frayer Model. These routines allow students to make connections to new language and offer repeated opportunities to develop and refine language.

Amplify Desmos Math California recognizes the diverse language needs of our students and is designed to be inclusive. Each lesson in the program features a parallel language activity, designed to be available to all students, in the form of teacher guidance and student activities. The activities in the Math Language Development Resource has leveled ELD (Emerging, Expanding, Bridging) differentiation to support all levels of Multilingual and English Learners. This approach ensures that all students, regardless of their language skills, can participate fully, grasp the material, and excel in their mathematical journey.

Uploaded digital glossary for languages other than Spanish. Up to nine languages of translations will be provided for.

Amplify Desmos Math California will include support resources for Spanish-speaking students across TK–Algebra 1/Integrated I beginning in the 20262027 school year.

A computer displays an educational activity about measuring platform heights. A notebook page is layered behind it, with a colorful hamster-themed illustration.

K–5 sample materials

Click the links in the drop-down sections below to explore sample materials from each grade. 

For helpful navigation tips and more program information, download the Amplify Desmos Math Program Guide.

You can also watch a product expert walk through a lesson and the available program components.

Screenshot of a kindergarten curriculum outline featuring units like Math in Our World, Numbers 1-10, Positions and Shapes, Understanding Addition, Making 10, and Shapes All Around Us. This comprehensive program utilizes New York Math standards to build foundational skills.
Program structure

Get to know the content and structure of Kindergarten Amplify Desmos Math California.

Cover of Amplify Desmos Math Grade K Teacher Edition featuring three children playing with math-related objects and a group of rabbits sitting nearby, aligning with the engaging curriculum seen in New York math classrooms.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Counting and Comparing Objects.

Digital educational activity showing a blue backpack illustration with dots, a task to match dots on cards, and printed sheet featuring a similar dot-matching exercise.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math California has student print materials and digital recommendations.

Cover of "Amplify Desmos Math: Student Edition Kindergarten," featuring an illustration of three children playing with math-related toys. A group of small white animals, possibly hamsters, play nearby. The scene brilliantly captures the joy of New York math exploration for young learners.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of "Amplify Desmos Math Grade K Centers Resources" featuring a large, stylized red and pink "C" on a light pink background with simple geometric designs. This distinctive cover complements New York math curriculums with its engaging visual elements.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math: Grade K." The title is displayed with a geometric "I" illustration in the center. Subtitle reads "Intervention and Extension Resources" on a pink and white background, ideal for New York math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

Illustration of a bear choosing a path with more mushrooms. Activity book page titled "A Furry Feast" with groups of objects to compare quantities.

In this lesson, students apply their understanding of how to compare groups of images as they determine which group has more or fewer and then compare their strategies by guiding a bear through a path that has more mushrooms than the other.

A clear plastic box contains various math manipulatives, including counting cubes, geometric shapes, rulers, and dice, displayed outside the box.
Hands-on manipulative kit

An optional add-on to your Amplify Desmos Math California program, the manipulative kit provides hands-on learning tools designed to simplify and illustrate complex mathematical concepts.

Grade 1 math curriculum overview displaying six units with instructional and assessment days: counting, addition, subtraction, numbers to 10, comparing numbers, measuring length, and geometry—aligned with the New York Math standards.
Program structure

Get to know the content and structure of Grade 1 Amplify Desmos Math California.

Children interact with math activities on a large tablet while observing fish illustrations. The text reads "Amplify Desmos Math Grade 1 Teacher Edition, aligned with New York Math standards.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Story Problems in Maui.

A digital educational activity showing a math problem about leaves on a kalo plant with a related worksheet on plant growth.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math California has student print materials and digital recommendations.

Illustration of three children engaged in math activities from the "Amplify Desmos Math: Student Edition 1" textbook. One child holds a number card, while the others manipulate counters and images, experiencing an exciting approach inspired by New York math techniques.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

Interactive math activity for kids featuring a frog and number line for subtraction problems, asking to find differences to locate bugs.

In this lesson, students find differences when subtracting 1 and 2 from the same number by helping a frog reach a lily pad where it can eat a bug.

A clear plastic box contains various math manipulatives, including counting cubes, geometric shapes, rulers, and dice, displayed outside the box.
Hands-on manipulative kit

An optional add-on to your Amplify Desmos Math California program, the manipulative kit provides hands-on learning tools designed to simplify and illustrate complex mathematical concepts.

A curriculum overview for Grade 2 in New York Math displaying 8 units, including topics like comparisons, addition, subtraction, and geometric shapes, with details on the number of instructional and assessment days. This plan integrates resources from Amplify Desmos Math to enrich learning experiences.
Program structure

Get to know the content and structure of Grade 2 Amplify Desmos Math California.

Cover of the "Amplify Desmos Math" Grade 2 Teacher Edition, showcasing children measuring with rulers and a poster displaying a mathematical equation, set against whimsical scenery with a colorful dragon. Perfect for New York math classrooms.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Adding and Subtracting.

Two digital worksheets about Theo's aquarium with tasks to estimate animal quantities using draggable graphs and illustrations of fish, frogs, and shrimps.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math California has student print materials and digital recommendations.

Cover of "Amplify Desmos Math Student Edition 2" showing three children performing a New York math activity with blocks and measurements.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of an educational book titled "Amplify Desmos Math Grade 2 Centers Resources" featuring a green "C" on a light green background, perfect for enhancing New York math education.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math Grade 2: Intervention and Extension Resources" featuring a green numeral 1 on a light green background, aligning with the New York math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

Educational activity on a screen showing a worm and blocks with numbers. Another page shows an activity titled "Finding the Missing Pair," with numbered options and a video prompt.

Students continue to develop fluency by finding the number that makes 10 by helping a millipede reach its favorite food – a clump of leaves!

A clear plastic box contains various math manipulatives, including counting cubes, geometric shapes, rulers, and dice, displayed outside the box.
Hands-on manipulative kit

An optional add-on to your Amplify Desmos Math California program, the manipulative kit provides hands-on learning tools designed to simplify and illustrate complex mathematical concepts.

An educational curriculum outline for Grade 3 with seven units covering various mathematics topics, including multiplication, shapes, fractions, and measurement. Suggested instructional days are provided. The New York Math approach ensures a thorough understanding of each concept.
Program structure

Get to know the content and structure of Grade 3 Amplify Desmos Math California.

Cover of a "Grade 3 Amplify Desmos Math Teacher Edition" book, featuring a cutaway building with diverse students and a teacher working on New York math problems and organizing materials.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Concepts of Area Measurement.

Math activity screenshot showing a problem to calculate the area of an unpainted wall space with given side lengths in a room diagram.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math California has student print materials and digital recommendations.

Cover of "Amplify Desmos Math Student Edition 3" showcasing illustrated children engaged in various mathematical activities inside a glass house structure, reflecting the dynamic energy of New York math.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of the Amplify Desmos Math Grade 3 Centers Resources book, featuring a 3D letter "C" in blue and white on a minimalistic background, perfect for aligning with New York math standards.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of an "Amplify Cover of the "Amplify Desmos Math" Grade 3 book featuring intervention and extension resources, with a blue geometric "I" on a light blue background, aligning with New York Math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

Activity sheets showing a bar graph and a table for counting animal stickers: 7 rabbits, 5 raccoons, and 2 foxes. Includes instructions for arranging data points on a graph.

Students compare data represented on bar graphs with different scales by using animal stickers to create scaled bar graphs.

A clear plastic box contains various math manipulatives, including counting cubes, geometric shapes, rulers, and dice, displayed outside the box.
Hands-on manipulative kit

An optional add-on to your Amplify Desmos Math California program, the manipulative kit provides hands-on learning tools designed to simplify and illustrate complex mathematical concepts.

A course outline for Algebra 1 with 8 units, each detailing the number of instructional and optional days. The total suggested instructional days are 144 and 28 optional days, aligning with New York Math standards.
Program structure

Get to know the content and structure of Grade 4 Amplify Desmos Math California.

Cover of "Amplify Desmos Math: Teacher Edition Grade 4" showing children learning New York Math outdoors, using large mathematical tools and numbers, with one child in a wheelchair.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Size and Location of Fractions.

Screenshot of a digital math activity showing a fraction number line task with a log-cutting visual and an instruction page titled "Locating Fractions.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math California has student print materials and digital recommendations.

Cover of "Amplify Desmos Math, Student Edition, Grade 4," showcasing students collaborating on math problems involving shapes and numbers against a vibrant backdrop that blends cityscapes and natural scenery, capturing the essence of New York math learning.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of the "Amplify Desmos Math" Grade 4 Centers Resources book, featuring a large, stylized blue letter "C" on a light blue background. This essential resource for New York math educators ensures engaging and effective instruction.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math, Grade 4: Intervention and Extension Resources," featuring a geometric illustration and a blue and orange color scheme inspired by New York math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

An educational activity displays a drag-and-drop task to determine platform heights using tube lengths, showing a room scene and instructions on a digital interface.

Students choose tube lengths to connect to platform heights for hamster homes, identifying possible heights using what they know about multiples.

A clear plastic box contains various math manipulatives, including counting cubes, geometric shapes, rulers, and dice, displayed outside the box.
Hands-on manipulative kit

An optional add-on to your Amplify Desmos Math California program, the manipulative kit provides hands-on learning tools designed to simplify and illustrate complex mathematical concepts.

A Grade 5 curriculum scope and sequence chart with units covering volume, fractions, multiplication, shapes, place value, and measurement. Each unit lists instructional and assessment days to amplify Desmos Math activities.
Program structure

Get to know the content and structure of Grade 5 Amplify Desmos Math California.

Illustration of three students engaging with various math activities outdoors and around large blocks. Text at the top reads "Amplify Desmos Math, Grade 5, Teacher Edition" - a perfect resource for New York math educators.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Fractions as Quotients.

Activity worksheet and digital screen showing a panda on a cliff, with instructions about placing a missing bamboo shoot to help it reach the leaf.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math California has student print materials and digital recommendations.

Cover of "Amplify Desmos Math: Student Edition, Grade 5" featuring students engaged in various mathematical activities outside, such as block building, measuring, and gardening—a perfect resource aligning with New York math standards.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover image of "Amplify Desmos Math Grade 5 Centers Resources" featuring a large purple letter C on a light purple background, showcasing the innovative approach of Amplify Desmos Math that's making waves in New York math education.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math Grade 5: Intervention and Extension Resources," featuring a large, stylized number five in purple against a light purple background with minimal geometric patterns, ideal for New York math curriculum support.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

Screen showing a student activity about decomposing a figure into prisms, with a drag-and-drop exercise and an adjacent worksheet labeled "Seeing Prisms.

Students decompose a figure into rectangular prisms and determine the volume of the figure by adding the volumes of the individual prisms.

A clear plastic box contains various math manipulatives, including counting cubes, geometric shapes, rulers, and dice, displayed outside the box.
Hands-on manipulative kit

An optional add-on to your Amplify Desmos Math California program, the manipulative kit provides hands-on learning tools designed to simplify and illustrate complex mathematical concepts.

6–A1 sample materials

Click the links in the drop-down sections below to explore sample materials from each grade. 

For helpful navigation tips and more program information, download the Amplify Desmos Math Program Guide.

You can also watch a product expert walk through a lesson and the available program components.

Laptop showing a math activity with geometric shapes. Two textbooks titled "Amplify Desmos Math" are displayed above.
An educational document titled "Scope and Sequence" for Grade 6 math, designed in collaboration with Amplify Desmos Math, outlining six units with instructional and optional days for topics such as fractions, integers, and expressions.
Program structure

Get to know the content and structure of Grade 6 Amplify Desmos Math California.

Cover of the Grade 6 Amplify Desmos Math Teacher Edition, showcasing students engaging in various mathematical activities around a balance scale with variables, inspired by New York math educational standards.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from three sub-units on this site: Unit 1, Sub-Unit 1: Area; Unit 3, Sub-Unit 1: Units and Measurement; and Unit 6, Sub-Unit 1: Solving Equations.

A digital activity showing two model trains on a track with a question about speed. A printed page on the right is titled "Model Trains" with warm-up instructions.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math California has student print materials and digital recommendations.

Cover of “Amplify Desmos Math, Student Edition, Grade 6” featuring an illustration of children engaging in various New York math-related activities outdoors.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover image of "Amplify Desmos Math" for Grade 6, featuring a 3D pink letter "I" and the text "Intervention and Extension Resources." This New York math edition supports students with comprehensive resources.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

A digital illustration of math balancing scales featuring boxes and a fox, alongside a worksheet displaying similar content and activities for learning math concepts.

Students use equations and tape diagrams to represent seesaw situations and to determine unknown animal weights, helping them make connections between diagrams that represent equations of the form `x+p=q` or `px=q`.

A clear plastic storage box filled with educational math manipulatives, including colorful blocks, shapes, measuring tools, and counting cubes displayed outside the box.
Hands-on manipulative kit

An optional add-on to your Amplify Desmos Math California program, the manipulative kit provides hands-on learning tools designed to simplify and illustrate complex mathematical concepts.

A Grade 7 math curriculum outline, featuring units on scale drawings, proportional relationships, measuring circles, rational numbers, operations, equations, angles, area, and probability with sequencing and days allocated. Perfectly aligned with Amplify Desmos Math for New York Math standards.
Program structure

Get to know the content and structure of Grade 7 Amplify Desmos Math California.

Cover image of "Amplify Desmos Math Teacher Edition Grade 7" featuring an illustration of students engaging in math-related activities with geometric shapes and construction elements against a New York cityscape background.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from three sub-units on this site: Unit 1, Sub-Unit 1: Scaled Copies; Unit 4, Sub-Unit 1: Percentages as Proportional Relationships; and Unit 6, Sub-Unit 1: Equations and Tape Diagrams.

Activity page showing a grid for shape creation with an area of 8 square centimeters. Includes shape options and instructions on rotation. A booklet page displays area challenges and warm-up tasks.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math California has student print materials and digital recommendations.

Cover of "Amplify Desmos Math, Student Edition, Grade 7" showing students engaged in math activities against a cityscape reminiscent of New York, with purple geometric structures and a crane in the background.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of "Amplify Desmos Math: Grade 7 – Intervention and Extension Resources" featuring a stylized 3D "I" on a light purple background, ideal for both New York math and national curricula.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

Screenshot of an educational website showing a math activity featuring a sheep named Shira. There is a graph and a worksheet on inequalities displayed.

Students solve inequalities with positive and negative coefficients to solve a variety of challenges featuring a fictional sheep who eats grass according to an inequality.

A clear plastic storage box filled with educational math manipulatives, including colorful blocks, shapes, measuring tools, and counting cubes displayed outside the box.
Hands-on manipulative kit

An optional add-on to your Amplify Desmos Math California program, the manipulative kit provides hands-on learning tools designed to simplify and illustrate complex mathematical concepts.

Grade 8 math curriculum chart featuring 9 units, such as Rigid Transformations and Congruence, with Suggested Instructional days. Each unit outlines instructional days, assessment days, and optional days—complemented by insights from Amplify Desmos Math to enhance your New York math learning experience.
Program structure

Get to know the content and structure of Grade 7 Amplify Desmos Math California.

Illustration of children engaging in learning activities outdoors near a large slide. The title "Amplify Desmos Math Grade 8 Teacher Edition" is shown at the top, highlighting its relevance to New York math curriculum standards.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from three sub-units on this site: Unit 1, Sub-Unit 1: Rigid Transformations; Unit 3, Sub-Unit 2: Linear Relationships; and Unit 6, Sub-Unit 2: Analyzing Numerical Data.

Image of a digital math activity titled "Line Capture #2" featuring a grid, equations, and instructions. A paper worksheet with graphs and a "Line Zapper" title is displayed alongside.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math California has student print materials and digital recommendations.

Cover of the "Amplify Desmos Math" Student Edition for Grade 8, featuring students engaging in various mathematical activities in a stylized outdoor New York setting.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of "Amplify Desmos Math Grade 8: Intervention and Extension Resources" featuring a stylized "I" on a gray background, tailored for New York math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

An educational worksheet on robots, featuring a graph with red, purple, and blue robot icons, and instructions for a warm-up activity.

Students connect points on a scatter plot with individuals in a population and rows of data in a table. The analysis of scatter plots continues with data about the eye distances and heights of robots.

A clear plastic storage box filled with educational math manipulatives, including colorful blocks, shapes, measuring tools, and counting cubes displayed outside the box.
Hands-on manipulative kit

An optional add-on to your Amplify Desmos Math California program, the manipulative kit provides hands-on learning tools designed to simplify and illustrate complex mathematical concepts.

A course outline for Algebra 1 with 8 units, each detailing the number of instructional and optional days. The total suggested instructional days are 144 and 28 optional days, aligning with New York Math standards.
Program structure

Get to know the content and structure of Algebra 1 Amplify Desmos Math California.

Cover of "Amplify Desmos Math: Algebra 1, Teacher Edition" featuring diverse characters engaged in mathematical activities, with a graph and a bridge in the background, illustrating the vibrant energy of New York math.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from two complete sub-units on this site: Unit 2, Sub-Units 1–2: One-Variable Equations and Multi-Variable Equations.

A digital educational interface shows a graph with data points and textual instructions comparing year and breeding pairs. Adjacent is a page discussing penguin populations with charts and illustrations.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math California has student print materials and digital recommendations.

Cover of "Amplify Desmos Math" Student Edition A1, featuring an illustration of diverse characters engaging in New York math activities against a backdrop of graphs and mathematical concepts.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

A digital math activity screen showing block arrangements and a worksheet page titled "Shelley the Snail" with related graphics.

Students represent the solutions of a situation using a table, a graph, and multiple forms of an equation to identify multiple combinations of blocks that can help Shelley the Snail cross a gap.

Contact us

For questions, samples, or more information, please contact your local Amplify Account Executive:

Erin King
Sales Director, CA
(512) 736-3162
eking@amplify.com

Northern CA
Wendy Garcia
Senior Account Executive
(510) 368-7666
wgarcia@amplify.com

Bay Area
Lance Burbank
Account Executive
(415) 830-5348
lburbank@amplify.com

Central Valley and Central Coast
Demitri Gonos
Senior Account Executive
(559) 355-3244
dgonos@amplify.com

Ventura and L.A. County
Jeff Sorenson
Associate Account Executive
(310) 902-1407
jsorenson@amplify.com

Orange and L.A. County
Lauren Sherman
Senior Account Executive
(949) 397-5766
lsherman@amplify.com

San Bernardino and L.A. County
Michael Gruber
Senior Account Executive
(951) 520-6542
migruber@amplify.com

Riverside and L.A. County
Brian Roy
Account Executive
(818) 967-1674
broy@amplify.com

San Diego County
Kirk Van Wagoner
Senior Account Executive
(760) 696-0709
kvanwagoner@amplify.com

Under 2300 students in Bay Area, Sacramento Valley, and Northern Counties
Kevin Mauser
Lead Account Executive
(815) 534-0148
kmauser@amplify.com

Under 2300 students in Southern CA, Central Coast, and Southern Central Valley Counties
Charissa Snyder
Account Executive
(720) 936-6802
chsnyder@amplify.com

Request additional samples.

Ready to learn more? Connect with an Amplify Desmos Math California expert to request additional program samples.

Welcome Reviewers, to Amplify Desmos Math!

Amplify Desmos Math thoughtfully combines conceptual understanding, procedural fluency, and application. Each lesson is designed to tell a story by posing problems that invite a variety of approaches before guiding students to synthesize their understanding of the learning goals.

Scroll to learn more about the program and explore sample materials.

About the program

We believe in math that motivates. Our structured approach to problem-based learning builds on students’ curiosity to develop lasting grade-level understandings for all students. 

The program thoughtfully combines conceptual understanding, fluency, and application, motivating students with interesting problems they are eager to solve. Teachers can spend more time where it’s most impactful: creating a collaborative classroom of learners.

A powerful suite of math resources

Amplify Desmos Math combines the best of problem-based lessons, intervention, personalized practice, and assessments into a coherent and engaging experience for both students and teachers.

A digital interface displays a math screener report on the left and a math problem involving division, alongside a visual representation of students lined up on the right, integrating rich math resources from Amplify Desmos Math.

Screening and progress monitoring

mCLASS® Assessments, along with daily formative checks, measure not only what students know, but also how they think. The asset-based assessment system provides teachers with targeted, actionable insights, linked to core instruction and intervention resources.

Two side-by-side math activities for children: on the left, a caterpillar-themed block challenge, and on the right, a worksheet for finding pairs that sum to 10. These exercises are fantastic ways to amplify children's engagement with math concepts.

Core instruction

Amplify Desmos Math lessons provide a structured approach to problem-based learning, helping teachers create a collaborative math community with students at its center. Each lesson systematically builds on students’ curiosity to develop lasting grade-level understandings for all students.

Two pages from a New York math textbook on determining coordinates after a rotation. Includes sections on modeled review, guided practice, and teacher's notes, with diagrams and examples that amplify the learning experience.

Differentiation and intervention

Integrated resources like Mini-Lessons, Fluency Practice, and Math Adventures provide targeted intervention on a specific concept or skill connected to daily instruction. Extensions are also available to stretch students’ understanding.
Boost™ Personalized Learning activities help students access grade-level math through engaging, independent digital practice. Responsive Feedback™ adjusts to students’ work, providing item-level adaptivity to further support their learning.

Two pages from a New York math textbook on determining coordinates after a rotation. Includes sections on modeled review, guided practice, and teacher's notes, with diagrams and examples that amplify the learning experience.

An approach that supports teachers

Clear, step-by-step instructional moves help teachers plan and teach student-centered lessons that use student thinking to differentiate instruction and guide to grade-level understanding. They include:

  • Guidance on what to listen for and how to respond.
  • Clear learning objectives to keep learning on track for each activity and lesson.
  • Daily reinforcement activities to provide direct instruction when needed.

A structured approach to problem-based learning

Problem-based learning asks students to make sense of and think strategically about mathematically interesting problems. This approach allows students’ ideas to take
center stage, so they are active and engaged in their learning process. Teachers are able to hear and respond to student thinking in real time, guiding and differentiating instruction right in the moment.

Moving from “I do, We do, You do” to “You do, We do, I do”
Lessons begin by activating student’s prior knowledge and curiosity, inviting them to explore the math, collaborate, and refine their thinking. By focusing on developing student thinking first, teachers can better connect ideas, guide learning, and synthesize learning objectives.

Lessons that are rigorous and delightful

Every lesson in Amplify Desmos Math is designed to put students at the center of their learning. Utilizing research-based best practices, students engage in meaningful work based on rich problems and real-world experiences.

Two young girls build with colorful blocks at a table while an adult woman observes and assists them in a classroom setting.

Warm-Up

Lessons begin by inviting every student to contribute to the mathematical discussion. Instructional routines are often used to build fluency, set the context, activate prior knowledge, or highlight a strategy that may be helpful in the lesson. 

Rich learning activities

Math knowledge is built through experiences and meaningful interactions. Students notice, wonder, explore, calculate, predict, measure, explain their thinking, use math to settle disputes, create challenges for their classmates, and more. Teachers serve as a guide, using a Launch, Monitor, Connect framework:

  • Launch: Teachers offer a short introduction to the problem or challenge
  • Monitor: As students work individually, in pairs, or in groups, teachers ask questions and provide support to move student thinking closer to the intended math goal.
  • Connect: Teachers connect student ideas to the Key Takeaway of the activity to help students synthesize and solidify the big ideas.

Synthesis

Teachers ensure that students end the lesson with accurate and enduring understandings of the math goal through synthesis of student ideas, explicit instruction, and reflection.

A short Show What You Know assessment allows students to show what they know about the learning goals of the lesson and reveal what they are still learning.

Differentiation and practice

Lasting understanding requires reinforcement. Every lesson offers Lesson Practice instructional recommendations to Support, Strengthen, and Stretch learning.

Two side-by-side math activities for children: on the left, a caterpillar-themed block challenge, and on the right, a worksheet for finding pairs that sum to 10. These exercises are fantastic ways to amplify children's engagement with math concepts.

Print for every lesson with engaging digital experiences

Whether in print or digital form, engaging interactions enable students and teachers to openly exchange ideas. Each lesson includes student print materials, interactive teacher Presentation Screens, and digital resources for practice and differentiation. Some lessons also use manipulatives or provide options for students to use devices individually or in pairs. Device recommendations for student use are age-appropriate, with more frequent usage in middle and high school.

Demo access

Please login to the digital platform to experience our full program as part of your review. In order to access the digital platform, you’ll need to log into using your unique login credentials below.

  • Click the orange button below to access the platform.
  • Click “Log in with Amplify.”
  • Enter the username and password:
    • Username:
    • Password:
  • View the video for helpful platform navigation tips.
Digital Access

Assessments

By starting with what students already know, Amplify Desmos Math helps build a strong foundation for success to guide and support future learning. Teachers are empowered to transform every classroom into an engaged math community that invites, values, and develops student thinking. With explicit guidance on what to look for and how to respond, teachers can effectively support students as they develop their understanding.

Open math workbook showing an End-of-Unit Assessment with multiple-choice and written response questions on fractions and equivalent values.

Program assessments

A variety of performance data in Amplify Desmos Math provides evidence of student learning while helping students bolster their skills and understanding.

Unit-Level Assessments

Our embedded unit assessments offer key insights into students’ conceptual understanding of math. These assessments provide regular, actionable information about how students are thinking about and processing math, with both auto-scoring and in-depth rubrics that help teachers anticipate and respond to students’ learning needs.

Lesson-Level Assessments

Amplify Desmos Math lessons are centered around sense-making and in-the-moment feedback. Daily moments of assessment provide valuable evidence of learning for both the teacher and student.

Learn more

Data and reporting

Amplify Desmos Math provides teachers and administrators with unified reporting and insights so that educators have visibility into what students know about grade-level math—and can plan instruction accordingly for the whole class, small groups, and individual students.

A table displays students' performance levels across various items, with a detailed score distribution for a specific assessment shown in a separate overlay. Geometric design elements accented the background, providing an engaging visual touch ideal for any math classroom using Amplify Desmos Math.

Assessment reports

Reporting functionality integrates unit assessments, lesson assessments, personalized learning, Benchmark assessments, and Progress Monitoring for a comprehensive look at student learning.

Our reports show proficiency and growth by domain, cluster, standard, and priority concept using performance data from unit assessments. Then our reports highlight areas of potential student need to allow teachers to modify their instruction and target differentiated support.

At-a-glance views of unit-level assessment results inform your instructional planning, and you can also drill down to item-level analysis.

Standards reports

Our standards report allows you to monitor proficiency at the class and individual student levels. Proficiency and growth are shown by domain, cluster, standard, and priority concepts. Areas of potential student need are highlighted to allow teachers to modify their instruction and target differentiated support.

Administrator reports

Amplify Desmos Math provides a complete picture of student, class, and district performance, allowing administrators to implement instructional and intervention plans.

  • Track student, class, and district performance with usage, completion, and assessment data.
  • Accurately group students and classes with the Benchmark and Progress Monitoring data of mCLASS Assessments and allow teachers to reliably implement and track the progress of Tier 2 and Tier 3 intervention.
  • Provide one data-driven solution that educators can rely on for high-quality math instruction.

Differentiation and intervention

Amplify Desmos Math views differentiation as an ongoing process where teachers are both reactive and proactive to student needs, ensuring that all students have clear pathways to proficiency. Through rich data and teacher support, Amplify Desmos Math uses flexible categories of intervention and enrichment that adjust daily according to student thinking.

In-the-moment differentiation supports are available for every lesson, both digitally and in the print Teacher Edition.

Learn more
A teacher sits at a table with two students, using small objects and a workbook to provide individualized instruction during a Boost Math lesson in a classroom with large windows.
A table showing differentiation teacher moves with examples of representing groups in different ways, support prompts, and a stretch question about patterns with more teams.

In-lesson differentiation

Within every lesson activity, teachers can use the suggestions in the Differentiation Teacher Moves table to provide in-the-moment instructional support while students are engaged in the work of the lesson. This table can help teachers anticipate the ways students may approach the activity, and provides prompts that they can use during the lesson to Support, Strengthen, and Stretch individual students in their thinking. Teachers are provided with clear student actions and understanding to look for, each matched with immediately usable suggestions for how to respond to the student thinking illustrated in each row of the table. In addition to using these suggestions in the moment as teachers monitor student work, teachers can review the Differentiation table in advance to help them anticipate how students are likely to approach the activity.

Differentiation: Beyond the Lesson

Teachers are provided with recommendations for resources to use with each group of students needing support, strengthening, and stretching after each lesson. Support, Strengthen, and Stretch resources include:

  • Mini-Lessons: 15-minute, small-group direct instruction lessons targeted to a specific concept or skill
  • Item Banks: Space for teachers to create practice and assessments by using filters and searching for standards, summative-style items, and more
  • Fluency Practice: Adaptive, personalized practice built out for basic operations and more
  • Centers (K–5): Lesson-embedded routines and practice for students that are vertically aligned across grade levels
  • Extensions: Lesson-embedded Teacher Moves including possible stretch questions and activities for students
  • Lesson Practice: Additional practice problems support every lesson
  • Math Adventures: Strategy-based math games where students engage with math concepts and practice skills in a fun digital environment
Two pages from a math workbook on determining coordinates after a rotation, with diagrams, problem sets, and instructional text, displayed on a yellow and gray background.
A classroom teaching guide displays strategies for discussing pre-image and image in math, goals for a parallelogram lesson, and tips for supporting multilingual learners.

Multilingual/English Learner supports

Supports for multilingual/English learners (ML/ELs) are called out at intentiSupports for multilingual/English learners (ML/ELs) are called out at intentional points within each lesson. These suggested supports are specific, targeted actions that are beneficial for ML/ELs. They often describe a modification to increase access to the task or provide support with contextual or mathematical language development that can often be helpful to all learners. ML/EL supports may also be attached to Math Language Routines.onal points within each lesson. These suggested supports are specific, targeted actions that are beneficial for ML/ELs. They often describe a modification to increase access to the task or provide support with contextual or mathematical language development that can often be helpful to all learners. ML/EL supports may also be attached to Math Language Routines.

Math Language Development

Every lesson in Amplify Desmos Math includes opportunities for all students to develop mathematical language as they experience the content. Amplify Desmos Math purposefully progresses language development from lesson to lesson and across units by supporting students in making their arguments and explanations stronger, clearer, and more precise. This systematic approach to the development of math language can be broken down into the following four categories of support:

  • Vocabulary: Units and lessons start by surfacing students’ language for new concepts, then building connections between their language and the new vocabulary for that unit.
  • Language goals: Language goals attend to the mathematics students are learning, and are written through the lens of one or more of four language modalities: reading, writing, speaking, and listening.
  • Math Language Routines: Math Language Routines are used within lessons to highlight student-developed language and ideas, cultivate conversation, support mathematical sense-making, and promote meta-cognition.
  • Multilingual/English learner supports: Supports for multilingual/English learners (ML/ELs) are called out at intentional points within each lesson.
Two girls sit at a table with open books, one making hand gestures while smiling, the other looking at her and giving a thumbs up. Behind them are shelves filled with books, capturing the lively atmosphere of a math classroom.
Digital educational material showing an activity named "Hamster Homes" involving tube length and platform heights for a hamster cage. Includes a diagram with platforms measuring 9 inches.

K-5 sample materials

Click the links in the drop-down sections below to explore sample materials from each grade. For a full program review, please login to the digital platform or request physical samples.

For helpful navigation tips and more program information, download the Amplify Desmos Math Program Guide.

You can also watch a product expert walk through a lesson and the available program components.

Cover of Amplify Desmos Math Grade K Teacher Edition featuring three children playing with math-related objects and a group of rabbits sitting nearby, aligning with the engaging curriculum seen in New York math classrooms.

Teacher Edition

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 2: Counting and Comparing Images.

Cover of "Amplify Desmos Math: Student Edition Kindergarten," featuring an illustration of three children playing with math-related toys. A group of small white animals, possibly hamsters, play nearby. The scene brilliantly captures the joy of New York math exploration for young learners.

Student Edition

Motivate students with mathematics that is both rigorous and delightful. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 2: Counting and Comparing Images.

Cover of "Amplify Desmos Math Grade K Centers Resources" featuring a large, stylized red and pink "C" on a light pink background with simple geometric designs. This distinctive cover complements New York math curriculums with its engaging visual elements.

Ancillary sampler

Included in the ancillary sampler are examples from the program Assessment Resources, Intervention and Extension Resources, Centers Resources, Additional Practice, and Math Language Development Resources.

A digital activity screen, crafted in the style of Amplify Desmos Math, shows two paths with different quantities of mushrooms. The user is prompted to choose the path with more mushrooms. A bear is on the left side of the screen.

In this lesson, students apply their understanding of how to compare groups of images as they determine which group has more or fewer and then compare their strategies by guiding a bear through a path that has more mushrooms than the other.

Children interact with math activities on a large tablet while observing fish illustrations. The text reads "Amplify Desmos Math Grade 1 Teacher Edition, aligned with New York Math standards.

Skills Unit 2 Teacher Guide

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 1, Sub-Unit 1: Adding and Subtracting Within 10.

Illustration of three children engaged in math activities from the "Amplify Desmos Math: Student Edition 1" textbook. One child holds a number card, while the others manipulate counters and images, experiencing an exciting approach inspired by New York math techniques.

Student Edition

Motivate students with mathematics that is both rigorous and delightful. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 1, Sub-Unit 1: Adding and Subtracting Within 10.

Cover of "Amplify Desmos Math Centers Resources" for Grade 1, featuring a yellow and white 3D letter "C" on a light background.

Ancillary sampler

Included in the ancillary sampler are examples from the program Assessment Resources, Intervention and Extension Resources, Centers Resources, Additional Practice, and Math Language Development Resources.

An educational game screen, inspired by New York math standards, shows a subtraction problem, "4 - 1," with a frog moving along numbered lily pads to reveal the answer "3.

In this lesson, students find differences when subtracting 1 and 2 from the same number by helping a frog reach a lily pad where it can eat a bug.

Cover of the "Amplify Desmos Math" Grade 2 Teacher Edition, showcasing children measuring with rulers and a poster displaying a mathematical equation, set against whimsical scenery with a colorful dragon. Perfect for New York math classrooms.

Teacher Edition

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 1, Sub-Unit 1: Adding and Subtracting.

Cover of "Amplify Desmos Math Student Edition 2" showing three children performing a New York math activity with blocks and measurements.

Student Edition

Motivate students with mathematics that is both rigorous and delightful. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 1, Sub-Unit 1: Adding and Subtracting.

Cover of an educational book titled "Amplify Desmos Math Grade 2 Centers Resources" featuring a green "C" on a light green background, perfect for enhancing New York math education.

Ancillary sampler

Included in the ancillary sampler are examples from the program Assessment Resources, Intervention and Extension Resources, Centers Resources, Additional Practice, and Math Language Development Resources.

An educational activity where users must select the block with the correct number to make a total of 10 using the given block numbers. The UI, inspired by New York math standards, features a caterpillar and two tree stumps to amplify engagement with Desmos Math tools.

Students continue to develop fluency by finding the number that makes 10 by helping a millipede reach its favorite food – a clump of leaves!

Cover of a "Grade 3 Amplify Desmos Math Teacher Edition" book, featuring a cutaway building with diverse students and a teacher working on New York math problems and organizing materials.

Teacher Edition

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 1, Sub-Unit 3: Data on Scaled Graphs.

Cover of "Amplify Desmos Math Student Edition 3" showcasing illustrated children engaged in various mathematical activities inside a glass house structure, reflecting the dynamic energy of New York math.

Student Edition

Motivate students with mathematics that is both rigorous and delightful. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 1, Sub-Unit 3: Data on Scaled Graphs.

Cover of the Amplify Desmos Math Grade 3 Centers Resources book, featuring a 3D letter "C" in blue and white on a minimalistic background, perfect for aligning with New York math standards.

Ancillary sampler

Included in the ancillary sampler are examples from the program Assessment Resources, Intervention and Extension Resources, Centers Resources, Additional Practice, and Math Language Development Resources.

A page titled "Activity 2" features a table showing counts of rabbits, raccoons, and foxes, an image of animal stickers, and a bar graph representing the number of each animal, designed to amplify your New York math lesson with engaging visual data.

Students compare data represented on bar graphs with different scales by using animal stickers to create scaled bar graphs.

Cover of "Amplify Desmos Math: Teacher Edition Grade 4" showing children learning New York Math outdoors, using large mathematical tools and numbers, with one child in a wheelchair.

Teacher Edition

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 1, Sub-Unit 2: Using Factors and Multiples.

Cover of "Amplify Desmos Math: Teacher Edition Grade 4" showing children learning New York Math outdoors, using large mathematical tools and numbers, with one child in a wheelchair.

Student Edition

Motivate students with mathematics that is both rigorous and delightful. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 1, Sub-Unit 2: Using Factors and Multiples.

Cover of the "Amplify Desmos Math" Grade 4 Centers Resources book, featuring a large, stylized blue letter "C" on a light blue background. This essential resource for New York math educators ensures engaging and effective instruction.

Ancillary sampler

Included in the ancillary sampler are examples from the program Assessment Resources, Intervention and Extension Resources, Centers Resources, Additional Practice, and Math Language Development Resources.

Interactive educational activity asking users to determine platform heights using a 3-inch tube. The interface, inspired by Desmos math tools, features a dragging function and feedback system with a checkbox and "Try another" option, amplifying the learning experience.

Students choose tube lengths to connect to platform heights for hamster homes, identifying possible heights using what they know about multiples.

Illustration of three students engaging with various math activities outdoors and around large blocks. Text at the top reads "Amplify Desmos Math, Grade 5, Teacher Edition" - a perfect resource for New York math educators.

Teacher Edition

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 1, Sub-Unit 3: Volume of Solid Figures.

Cover of "Amplify Desmos Math: Student Edition, Grade 5" featuring students engaged in various mathematical activities outside, such as block building, measuring, and gardening—a perfect resource aligning with New York math standards.

Student Edition

Motivate students with mathematics that is both rigorous and delightful. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 1, Sub-Unit 3: Volume of Solid Figures.

Cover image of "Amplify Desmos Math Grade 5 Centers Resources" featuring a large purple letter C on a light purple background, showcasing the innovative approach of Amplify Desmos Math that's making waves in New York math education.

Ancillary sampler

Included in the ancillary sampler are examples from the program Assessment Resources, Intervention and Extension Resources, Centers Resources, Additional Practice, and Math Language Development Resources.

An interactive screen showing an activity about decomposing a figure into prisms, with a touch of Desmos Math integration. The user is asked to drag points to demonstrate the decomposition. Two prism illustrations are displayed, offering a glimpse of New York Math's approach.

Students decompose a figure into rectangular prisms and determine the volume of the figure by adding the volumes of the individual prisms.

6-A1 sample materials

Click the links in the drop-down sections below to explore sample materials from each grade. For a full program review, please login to the digital platform or request physical samples. 

For helpful navigation tips and more program information, download the Amplify Desmos Math Program Guide.

You can also watch a product expert walk through a lesson and the available program components.

A laptop displays a math warm-up activity with shapes and a scale, in front of two Amplify Desmos Math teacher edition books for grades 1 and 7.
Cover of the Grade 6 Amplify Desmos Math Teacher Edition, showcasing students engaging in various mathematical activities around a balance scale with variables, inspired by New York math educational standards.

Teacher Edition

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 6, Sub-Unit 1: Solving Equations.

Cover of “Amplify Desmos Math, Student Edition, Grade 6” featuring an illustration of children engaging in various New York math-related activities outdoors.

Student Edition

Motivate students with mathematics that is both rigorous and delightful. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 6, Sub-Unit 1: Solving Equations.

Cover image of "Amplify Desmos Math" for Grade 6, featuring a 3D pink letter "I" and the text "Intervention and Extension Resources." This New York math edition supports students with comprehensive resources.

Ancillary sampler

Included in the ancillary sampler are examples from the program Assessment Resources, Intervention and Extension Resources, Additional Practice, and Math Language Development Resources.

A digital math activity shows foxes on a seesaw balanced with 18-pound weights. A multiple-choice question and text box ask for the weight of a fox in pounds.

Students use equations and tape diagrams to represent seesaw situations and to determine unknown animal weights, helping them make connections between diagrams that represent equations of the form `x+p=q` or `px=q`.

Cover image of "Amplify Desmos Math Teacher Edition Grade 7" featuring an illustration of students engaging in math-related activities with geometric shapes and construction elements against a New York cityscape background.

Teacher Edition

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 6, Sub-Unit 3: Inequalities.

Cover of "Amplify Desmos Math, Student Edition, Grade 7" showing students engaged in math activities against a cityscape reminiscent of New York, with purple geometric structures and a crane in the background.

Student Edition

Motivate students with mathematics that is both rigorous and delightful. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 6, Sub-Unit 3: Inequalities.

Cover of "Amplify Desmos Math: Grade 7 – Intervention and Extension Resources" featuring a stylized 3D "I" on a light purple background, ideal for both New York math and national curricula.

Ancillary sampler

Included in the ancillary sampler are examples from the program Assessment Resources, Intervention and Extension Resources, Additional Practice, and Math Language Development Resources.

A digital math activity screen shows a character above a number line and a box with the inequality "x > -10" entered. A cursor points to the "Edit my response" button.

Students solve inequalities with positive and negative coefficients to solve a variety of challenges featuring a fictional sheep who eats grass according to an inequality.

Illustration of children engaging in learning activities outdoors near a large slide. The title "Amplify Desmos Math Grade 8 Teacher Edition" is shown at the top, highlighting its relevance to New York math curriculum standards.

Teacher Edition

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 6, Sub-Unit 2: Analyzing Numerical Data.

Cover of the "Amplify Desmos Math" Student Edition for Grade 8, featuring students engaging in various mathematical activities in a stylized outdoor New York setting.

Student Edition

Motivate students with mathematics that is both rigorous and delightful. To help you preview the program, we have included samples from a complete sub-unit on this site: Unit 6, Sub-Unit 2: Analyzing Numerical Data.

Cover of "Amplify Desmos Math Grade 8: Intervention and Extension Resources" featuring a stylized "I" on a gray background, tailored for New York math standards.

Ancillary sampler

Included in the ancillary sampler are examples from the program Assessment Resources, Intervention and Extension Resources, Additional Practice, and Math Language Development Resources.

A graph plots four robot colors by height and eye distance; on the right, matching colored robots stand side by side, labeled Red, Purple, Blue, and Green.

Students connect points on a scatter plot with individuals in a population and rows of data in a table. The analysis of scatter plots continues with data about the eye distances and heights of robots.

Cover of "Amplify Desmos Math: Algebra 1, Teacher Edition" featuring diverse characters engaged in mathematical activities, with a graph and a bridge in the background, illustrating the vibrant energy of New York math.

Teacher Edition

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you preview the program, we have included samples from two complete sub-units on this site: Unit 2, Sub-Units 1–2: One-Variable Equations and Multi-Variable Equations.

Cover of "Amplify Desmos Math" Student Edition A1, featuring an illustration of diverse characters engaging in New York math activities against a backdrop of graphs and mathematical concepts.

Student Edition

Motivate students with mathematics that is both rigorous and delightful. To help you preview the program, we have included samples from two complete sub-units on this site: Unit 2, Sub-Units 1–2: One-Variable Equations and Multi-Variable Equations.

Cover of an Amplify Desmos Math Algebra 1 ancillary sampler, featuring students interacting with graphs and mathematical models, including a rocket and a parabola.

Ancillary sampler

Included in the ancillary sampler are examples from the program Assessment Resources, Intervention and Extension Resources, Additional Practice, and Math Language Development Resources.

A math activity screen shows a cartoon snail, purple blocks, and a table comparing blocks and a math equation; a cursor hovers over the "Edit my response" button.

Students represent the solutions of a situation using a table, a graph, and multiple forms of an equation to identify multiple combinations of blocks that can help Shelley the Snail cross a gap.

Amplify Science professional development

Amplify Science blends hands-on investigations, literacy-rich activities, and interactive digital tools to empower students to think, read, write, and argue like real scientists and engineers. We’ve created a wide suite of professional development offerings that will help you meet your unique needs this school year. Find out more below!

Professional Learning Partner Guide Certified Provider

Amplify CKLA, ELA, and Science professional development has been vetted by Rivet Education’s team through a rigorous three-step process and is listed in the Professional Learning Partner Guide.

Three women sitting at a table using a tablet to discuss stimulus funding for schools in a professional meeting.

Plan your professional development

We’re excited to partner with you on your Amplify journey. Flexible professional development pathways have been designed to meet your needs.

Illustration of three educational phases: a teacher launches a rocket, another reads a book, and four individuals discuss in a meeting setting.

Recommended Professional Development Plan

Our team has curated a recommended professional learning path from initial launch to continuous support. Use the Professional Development Planning Guide below to discuss the plan that best meets your school or district needs with your Account Executive.

View the Professional Development Planning Guide

Sessions overview

AudienceTitleDurationModalityAvailable
Foundations
K–5 instructional leadersAdministrators’ program overviewHalf dayOnsite/Remote6/2022
Administrators’ program overview for interactive classroomHalf dayOnsite/Remote6/2022
K–5 teachersInitial training1 day onsite
or 2 half days
remote		Onsite/RemoteYes*
Program overviewHalf dayOnsite/RemoteYes
Initial training for Interactive Classroom1 day onsite
or 2 half days
remote		Onsite/Remote6/2022
Program overview for Interactive ClassroomHalf dayOnsite/RemoteYes
6–8 instructional leadersAdministrators’ program overviewHalf dayOnsite/RemoteYes
6–8 teachersInitial training1 day onsite
or 2 half days
remote		Onsite/Remote6/2022
Program overviewHalf dayOnsite/RemoteYes
Strengthening
K–5 instructional leadersStrengthening consultation session60 min.Remote6/2022
Strengthening consultation package3 1-hour sessionsRemote6/2022
K–5 teachersGuided unit internalizationHalf dayOnsite/RemoteYes
Strengthening consultation session60 min.Remote6/2022
Strengthening consultation package3 1-hour sessionsRemote6/2022
6–8 instructional leadersStrengthening consultation session60 min.Remote6/2022
Strengthening consultation package3 1-hour sessionsRemote6/2022
6–8 teachersGuided unit internalizationHalf dayOnsite/RemoteYes
Strengthening consultation session60 min.Remote 6/2022
Strengthening consultation package3 1-hour sessionsRemote 6/2022
Coaching
K–5 instructional leadersJob-Embedded Coaching (JEC)1 dayOnsiteYes
K–5 teachersJob-Embedded Coaching (JEC)1 dayOnsite/RemoteYes
6–8 instructional leadersJob-Embedded Coaching (JEC)1 dayOnsiteYes
6–8 teachersJob-Embedded Coaching (JEC)1 dayOnsite/RemoteYes

Note for all workshops:  Any single three-hour offering can be repeated on the same day with different audiences to make one full-day session.

*When delivered remotely, this full-day initial training session (6 hours) is split into two half-day sessions (3 hours each). Part 1 and Part 2 may be scheduled consecutively on the same day or on different days, ideally within ~2 weeks. The same participants should attend both sessions in order to receive all content. This flexible scheduling opportunity for remote sessions will be available starting 6/2022.

Launch sessions

For teachers

Initial training

1 day onsite (6 hours) or 2 half days remote (6 hours)*
Grade band: K–5 / 6–8
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8

In the first half of this session, participants learn the essentials necessary to implement Amplify Science with success. They learn to navigate the digital Amplify Science platform and become familiar with planning resources and strategies. Through a model lesson and guided reflection, participants build an understanding of the instructional approach to teaching and learning. In the second half of this session, participants dig deeper into unit resources to start planning for instruction for their first grade-level unit.

When delivered as a grade band session, Part 1 will feature an exemplar from the following units:

  • K–5 workshops feature an exemplar from the grade 4 unit Energy Conversions.
  • 6–8 workshops feature an exemplar from the Metabolism Core unit.

When delivered as a grade level session, Part 1 features the following units:

  • K: Needs of Plants and Animals
  • 1: Animal and Plant Defenses
  • 2: Plant and Animal Relationships
  • 3: Balancing Forces
  • 4: Energy Conversions
  • 5: Patterns of Earth and Sky

6–8 workshops feature one of the following units:

  • Metabolism
  • Ocean, Atmosphere, and Climate
  • Phase Change

Available starting 6/2022.

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

*When delivered remotely, this full-day initial training session (6 hours) is split into two half-day sessions (3 hours each). Part 1 and Part 2 may be scheduled consecutively on the same day or on different days, ideally within two weeks. The same participants should attend both sessions in order to receive all content. This flexible scheduling opportunity for remote sessions will be available starting 6/2022.

Initial training for Interactive Classroom

1 day onsite (6 hours) or 2 half days remote (6 hours)*
Grade band: K–5
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8

In the first half of this session, participants learn to navigate with Amplify Science Interactive Classroom and prepare to start teaching. The session opens with a model lesson that introduces the functionality of the Interactive Classroom interface and highlights the Amplify Science instructional approach. Next, participants experience a guided navigation walkthrough that prepares them to use the full suite of Interactive Classroom features with their students. The session closes with time to reflect on implementation and a walkthrough of additional resources available to support further professional learning. In the second half of this session, participants dig deeper into unit resources to start planning for instruction for their first grade-level unit.

When delivered as a grade band session, Part 1 will feature an exemplar from the grade 4 unit Energy Conversions.

When delivered as a grade level session, Part 1 features the following units:

  • K: Needs of Plants and Animals
  • 1: Animal and Plant Defenses
  • 2: Plant and Animal Relationships
  • 3: Balancing Forces
  • 4: Energy Conversions
  • 5: Patterns of Earth and Sky

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

*When delivered remotely, this full-day initial training session (6 hours) is split into two half-day sessions (3 hours each). Part 1 and Part 2 may be scheduled consecutively on the same day or on different days, ideally within two weeks. The same participants should attend both sessions in order to receive all content. This flexible scheduling opportunity for remote sessions will be available starting 6/2022.

Program overview

Half day (3 hours)
Grade band: K–5 / 6–8
Grade level: 6, 7, 8

In this session, participants learn the essentials necessary to implement Amplify Science with success. They learn to navigate the digital Amplify Science platform and become familiar with planning resources and strategies. Through a model lesson and guided reflection, participants build an understanding of the instructional approach to teaching and learning.

When delivered as a grade band session, an exemplar will be featured from the following units:

  • K–5 workshops feature an exemplar from the grade 4 unit Energy Conversions.
  • 6–8 workshops feature an exemplar from Metabolism.

When delivered as a grade level session, the following units will be featured:

  • K: Needs of Plants and Animals
  • 1: Animal and Plant Defenses
  • 2: Plant and Animal Relationships
  • 3: Balancing Forces
  • 4: Energy Conversions
  • 5: Patterns of Earth and Sky

6–8 workshops feature one of the following units:

  • Metabolism
  • Ocean, Atmosphere, and Climate
  • Phase Change

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

Program overview for Interactive Classroom

Half day (3 hours)
Grand band: K–5
Grade level: K, 1, 2, 3, 4, 5

In this session, participants learn to navigate with Amplify Science Interactive Classroom and prepare to start teaching. The session opens with a model lesson that introduces the functionality of the Interactive Classroom interface and highlights the Amplify Science instructional approach. Next, participants experience a guided navigation walkthrough that prepares them to use the full suite of Interactive Classroom features with their students. The session closes with time to reflect on implementation and a walkthrough of additional resources available to support further professional learning.

When delivered as a grade band session, the workshop features an exemplar from the Grade 4 unit Energy Conversions.

When delivered as a grade level session, the workshop features the following units:

  • K: Needs of Plants and Animals
  • 1: Animal and Plant Defenses
  • 2: Plant and Animal Relationships
  • 3: Balancing Forces
  • 4: Energy Conversions
  • 5: Patterns of Earth and Sky

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

For instructional leaders

Administrators’ program overview

Half day (3 hours)
Grade band: K–5 / 6–8

In this session, instructional leaders become familiar with the principles of phenomenon-based teaching and learning, and experience the instructional approach of Amplify Science units. Leaders consider their essential role supporting teachers and students with the implementation of a new science curriculum.

Available starting 6/2022.

Audience: Administrators, department chairs, coaches, maximum 30 participants
Modality: Onsite/Remote

Administrators’ program overview for Interactive Classroom

Half day (3 hours)
Grade band: K-5

In this session, instructional leaders become familiar with the functionality of Amplify Science with Interactive Classroom and are introduced to the instructional approach of Amplify Science units. Leaders consider their essential role supporting teachers and students with the implementation of a new science curriculum.

Available starting 6/2022.

Audience: Administrators, department chairs, coaches, maximum 30 participants
Modality: Onsite/Remote

Strengthening sessions

For teachers

Guided unit internalization

Half day (3 hours)
Grade band: K–5 / 6–8
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8
Prerequisite: Initial training or program overview

In this session, participants leverage a planning protocol to internalize an upcoming unit. They apply their understanding of how students engage in three-dimensional learning throughout the unit to plan for the diverse needs of their classrooms and students.

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

Strengthening consultation session

60-minute session
Grade band: K–5 / 6–8
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8
Prerequisite: Initial training or program overview

This 60-minute session focuses on a specific topic that will deepen teachers understanding of Amplify Science. An Amplify facilitator will align with the school or district leadership team in advance on the topic (chosen from a menu of options) that will best meet teachers unique options.

Topics include supporting diverse learners (for K–8 teachers), Classwork/My Work/Assign/Reporting (for 6–8 teachers), and planning an Amplify Science lesson (for K–8 teachers).

Available starting 6/2022.

Audience: Teachers, maximum 30 participants
Modality: Remote

Strengthening consultation package

3 1-hour sessions
Grade band: K–5 / 6–8
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8
Prerequisite: Initial training or program overview

This package consists of three 60-minute sessions that can be delivered on the same day or on different days. Each session will focus on a specific topic that will deepen teachers understanding of Amplify Science. An Amplify facilitator will align with the school or district’s leadership team in advance on the topic from a menu of options that will best meet teachers unique needs.

Available starting 6/2022.

Audience: Teachers, maximum 30 participants
Modality: Remote

For instructional leaders

Strengthening consultation session

60-minute session
Grade band: K–5 / 6–8
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8
Prerequisite: Administrators’ program overview

These 60 minute sessions will focus on a specific topic that will deepen instructional leaders’ understanding in Amplify Science and equip them in driving towards stronger student outcomes. An Amplify facilitator will align with the school or district’s leadership team in advance on the topic from a menu of options that will best meet instructional leaders’ unique needs.

Topics include data analysis with Admin Reports (for 6-8 leaders), and Amplify Science classroom look-fors (for K-8 leaders).

Available starting 6/2022.

Audience: Administrators, department chairs, coaches, maximum 30 participants
Modality: Remote

Strengthening consultation package

3 1-hour sessions
Grade band: K–5 / 6–8
Prerequisite: Administrators’ program overview

This package consists of three 60-minute sessions that can be delivered on the same day or on different days. Each session will focus on a specific topic that will deepen leaders’ understanding of Amplify Science. An Amplify facilitator will align with the school or district’s leadership team in advance on the topic from a menu of options that will best meet leaders’ unique needs.

Available starting 6/2022.

Audience: Administrators, department chairs, coaches, maximum 30 participants
Modality: Remote

Coaching sessions

For teachers

Job-Embedded Coaching (JEC) services: Teachers

1 day (6 hours)
Grade band: K–5 / 6–8
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8
Prerequisite: Initial training or program overview

Strengthen your implementation of Amplify Science with a coaching onsite visit for your teachers. An Amplify Science Professional Learning Specialist can visit classrooms for observation and debriefs with focused feedback and/or facilitate PLC or grade-level meetings to support teachers with planning decisions. The flexible coaching design allows for a collaborative and personalized approach to support effective program implementation.

Audience: Teachers, maximum 30 participants
Modality: Onsite/Remote

For instructional leaders

Job-Embedded Coaching (JEC): Administrators

1 day (6 hours)
Grade band: K–5 / 6–8
Prerequisite: Administrators’ program overview

In our Coaching sessions, instructional leaders engage in facilitated Professional Learning Walks (PLW)—non-evaluative classroom observations of Amplify Science classrooms that focus on building capacity to identify indicators of strong implementation of the program. Classroom look-fors focus on the use of instructional resources (material access/use and the Classroom Wall), instructional delivery (unpacking the unit phenomena and multimodal instruction), and monitoring of instruction (supporting all learners and use of the Assessment System). Leaders collaboratively analyze collected data in order to identify strengths and areas for growth specific to the implementation of Amplify Science for their teaching teams. Leaders leave with an action plan for supporting their teachers based on the analysis and reflection from the PLW.

Audience: Administrators, department chairs, coaches, maximum 30 participants
Modality: Onsite

Pricing

We offer the following pricing for training sessions and packages:

Session typePricing
2 consecutive full day onsite sessions$4,800
1-day onsite session$3,200
1-day remote session (2 half days)$1,500
1-day remote coaching session$1,200
Half-day onsite session$2,500
Half-day remote session$750
60-minute remote session$350
3 1-hour remote sessions$1,000
Customized Amplify Science onsite or remote packagesPrice will vary

Please note that the prices are general ranges and may be subject to change.

Contact

Amplify welcomes the opportunity to partner with schools and districts to design professional development plans and answer your questions.

If you would like to order any of our professional development services, please contact your local Amplify sales representative or call (800) 823-1969.

Amplify Science Resources for NYC (6-8)

This page has been archived. For the latest information, please visit the NYC Resource Site.

Welcome!

As the 2021-2022 school year kicks into full gear, you’re likely thinking about making your classroom responsive to student needs due to the covid-19 pandemic.

Got additional questions? Use Zoom to attend office hours with Adaliz Gonzalez, the DOE’s Middle School Science Lead on Thursdays from 3-4pm.

Meeting ID: 852 2280 0969

Passcode: 528986

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

The word "Amplify" is written in large, orange letters with a period at the end on a light background.
The logo for The Lawrence Hall of Science, University of California, Berkeley, features blue text on a light background and is recognized by educators using Amplify Science for middle school science programs.

NYC Newsletters

Educator Spotlight Submission

Calling all NYC DOE educators! Do you know an educator who has gone above and beyond? Would you like to highlight your teaching experience for others? Submit nominations here to see them featured as a spotlight in a future edition of our monthly newsletter and on our Instagram pages!

Introduction

This page includes planning, implementation, and professional learning resources for NYC schools using Amplify Science. Please take a moment to familiarize yourself with the categories in the navigation bar on the left side of the page, so that you’ll be able to easily find what you need.

Most New York City educators come here looking for specific information, but if you’re new to Amplify Science, we recommend you read through the program guide to learn a little about the program. 

New to Amplify? – Start HERE!

Teachers and Administrators 

Step 1: Review the Amplify Science Overview Video.

Step 2: Review the NYC Scope and sequence for 21-22 school year.

Step 3: Review the Unpacking the Kit Videos listed below to understand what’s in your unit 1 kit.

Step 4: Access your unique Log-in information to log-in to the Amplify Science Curriculum outlined below under Login support

Step 5: Log into the platform and access our Program Hub.  Select Using this site for self study for a complete suite of training videos and resources for an initial orientation video series.

Step 6: Log into the curriculum and begin studying the Unit Map and Teacher’s Guide resources and begin planning your first lesson. Print out the NYC Program Guide for essential program information.

Step 7: Administrator’s ONLY – Review the new administrator orientation presentation for an overview of the program. Review other materials under Admin Resources

NOTE: Should you need any additional guidance on how to get started with prep (or anything else!), please feel free to get in touch with our pedagogical support team. They are available Monday-Friday from 7AM-7PM EST. You can reach them via the chat icon in the lower right- hand corner of your screen when logged in, through email (help@amplify.com), or via phone (800-823-1969).

Getting started resources

Login Support

Materials

Unpacking your first Amplify Science classroom kit

21-22 Login Update

The temporary login credentials for fall ’21 have been deactivated. 

Please make sure you check out the Getting started resources > Login Support below for instructions around teacher and student logins. If there are any issues, please confirm with your STARS programmer that your classes are assigned correctly and then contact our Amplify Help Desk at help@amplify.com or at 1-800-823-1969 for further assistance.

Implementation resources

21-22 NYC Scope and Sequence and Pacing Guide

Use our NYC Field Trip List to plan an engaging field trip for your students!

NYC Companion Lesson Guides 

The format of the NYC Companion Lessons is similar to other Amplify Science lessons. Some companion lessons are designed to require more than a single class period to teach, so each lesson includes pacing suggestions. Science Background sections support teachers with the science content introduced in the lessons. For students’ written work, possible student responses are included at the end of each lesson guide.

The Lesson Guides are available in the last section of each unit’s print Teacher’s Guide and can be downloaded from the tables in the downloads section below.

NYC Companion Lesson Copymasters
Each NYC Companion Lesson has an accompanying Copymaster (for creating student sheets) that can be copied and distributed to students or used as a visual reference. The NYC Companion Lessons require students to have physical copies of the student sheets. The copymasters are available to download as printable PDF files from the tables in the downloads section below.

Grade 6 Lesson guides and Copymasters

  • Companion lesson: Insert after Lesson 2.2
  • Time frame: 60 minutes (can spread across multiple class periods)
  • NYSP–12SLS: PE: MS-PS3-6, DCI: PS3.B
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.3
  • Time frame: Two 45-minute class periods
  • NYSP–12SLS: PE: MS-PS2-3, MS-PS2-5, DCI: PS2.B
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.3 and after Investigating Non-Touching Forces
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-PS2-5, MS-PS2-3, DCI: PS2.B
  • Links (click to download):
  • Companion lesson: Insert after Lesson 2.5
  • Time frame: 105 minutes (can be spread across multiple class periods)
  • NYSP–12SLS: PE: MS-PS1-6, DCI: PS1.B
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.4
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-LS2-5, DCI: LS2.C, LS4.D
  • Links (click to download):
  • Companion lesson: Insert after Lesson 1.3
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-ESS2-4, DCI: ESS2.C
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.3*
  • Time frame: 90 minutes (can be spread across multiple class periods)
  • NYSP–12SLS: PE: MS-PS1-7, MS-ESS2-6, DCI: PS1.A, ESS2.C
  • Links (click to download):

*Note: The homework assignment for Ocean, Atmosphere, and Climate Lesson 3.3 (reading the article “Deep Ocean Currents: Driven by Density”) should be assigned after the Investigating Deep Ocean Currents companion lesson rather than after Lesson 3.3.

Grade 7 Lesson Guides and Copymasters

  • Companion lesson: Insert after Lesson 3.2
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-LS1-3, DCI: PS3.D, LS1.A
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.3 or later
  • Time frame: Three 45-minute class periods, each several days apart
  • NYSP–12SLS: PE: MS-LS1-8, DCI: LS1.D
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.5
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-LS1-6, MS-LS1-7, DCI: LS1.C, PS3.D
  • Links (click to download):
  • Companion lesson: Insert after Lesson 2.2
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-PS1-4, DCI: PS3.A
  • Links (click to download):
  • Companion lesson: Insert after Lesson 1.3
  • Time frame: 60 minutes
  • NYSP–12SLS: PE: MS-PS1-7, DCI: PS1.A
  • Links (click to download):
  • Companion lesson: Insert after Lesson 2.3, 2.4, or 2.5
  • Time frame: Two 45-minute class periods
  • NYSP–PE: MS-PS1-8, MS-PS1-2 DCI: PS1.A, PS1.B
  • Links (click to download):

Grade 8 Lesson Guides and Copymaster

  • Companion lesson: Insert after Lesson 2.2
  • Time frame: 90 minutes (can be spread across multiple class periods)
  • NYSP–12SLS: PE: MS-PS3-2, MS-PS3-5
  • Links (click to download):

NYC Companion Kits

Materials needed to teach Amplify Science lessons are provided in a kit for each unit. While some materials used in the NYC Companion Lessons are also found in a unit’s kit, materials specific to the companion lessons are provided in NYC Companion Kits. The contents of each kit and any additional materials needed to teach the companion lessons are listed in the PDFs provided below. Please select your grade to view or download the list.

NYC Student Editions (print)
The NYC Student Editions are durable student references that compile all reading material required for a grade level, including the articles students read for NYC Companion Lessons. Students reading in the Student Edition should annotate the text directly with sticky notes to achieve the full benefits of Active Reading. The Active Reading approach was designed as an interactive process in which students highlight and annotate digital or hard copies of articles directly. Printable versions of the articles are available in the downloads section below.

It is recommended that NYC teachers insert this additional lesson between Lessons 3.1 and 3.2 in order to have students complete a reading assignment in class along with an additional Sim activity.

  • Lesson: Earth, Moon and Sun: Modeling Seasons
  • Lesson Placement: Insert between Lessons 3.1 and 3.2*
  • Links (click to download):

*If teaching this Modeling Seasons lesson, do not assign reading “The Endless Summer of the Arctic Tern” article for homework in Lesson 3.1. However, students should still model a lunar eclipse with the Modeling Tool for homework, as they will be revisiting and revising this model in Lesson 3.3.

NYC Investigation Notebooks (for teacher download)

* includes NYC Companion Lesson Copymaster(s)

* includes NYC Companion Lesson Copymaster(s)

  • Geology on Mars
  • Earth, Moon, and Sun
  • Force and Motion
  • Engineering Internship: Force and Motion
  • Magnetic Fields*
  • Light Waves
  • Traits and Reproduction
  • Natural Selection
  • Evolutionary History

* includes NYC Companion Lesson Copymaster(s)

Admin resources

Remote and hybrid learning resources

In response to the shifts towards remote learning, Amplify has created resources for using our programs remotely. Please visit our Program Hub accessible via your Teacher Platform for all of our hybrid and remote learning supports which includes guidance for teachers and parents/guardians.

Additionally, please see below where you’ll find the recordings from our recently held webinars on our remote learning resources and some best practices for implementing Amplify Science in a distance learning setting.

Resource guides

Professional learning opportunities

Interested in attending training? Check out and sign up for this year’s PL offerings here!

Election Day 21-22 PL

Grade 6 Guided Planning Presentation and Webinar

Grade 7 Guided Planning Presentation and Webinar

Grade 8 Guided Planning Presentation and Webinar

Grades 6-8 Unpacking Phenomena Presentation and Webinar

All 2020-2021 PL session materials can be found below under Professional learning resources.

Amplify Science Back-to-School Recorded Webinars – Amplify held a series of national office hours throughout the summer and fall to share information about our new resources to support remote and hybrid learning– including recommendations about what to prioritize from your curriculum and essential refresher topics, such as how to navigate your program and find the best planning resources. Feel free to watch all recorded sessions at your convenience.

Archived Professional Learning Resources

Winter 2022

Spring 2021

Winter 2021

Fall 2020

Summer 2020

Summer 2019- Harnessing Human Energy and Thermal Energy

Fall 2019- Population and Resources with Participant Notebook

Winter 2022

Spring 2021

Winter 2021

Fall 2020

  • Grade 7: Progress Builds & Embedded Assessments Webinar
  • Grade 7: Amplify Science Remote & Hybrid Resources Webinar

Summer 2020

Summer 2019 – Microbiome and Metabolism

Fall 2019 – Phase Change with Participant Notebook

Winter 2022

Spring 2021

Winter 2021

Fall 2020

  • Grade 8: Progress Builds & Embedded Assessments Webinar
  • Grade 8: Amplify Science Remote & Hybrid Resources Webinar

Summer 2020

Summer 2019 –  Geology on Mars and Earth, Moon, Sun

Fall 2019 – Force and Motion with Participant Notebook

Caregiver resources

Caregiver Hub

Questions

For general questions about the Amplify program (navigation, pedagogy, login), please reach out:

Email – scihelp@amplify.com
Phone – call toll-free at (800) 823-1969, Monday to Friday, 7 a.m.–7 p.m.  ET

Amplify Chat – click the Amplify Chat icon within the individual teacher account

Amplify Science professional development

Amplify Science blends hands-on investigations, literacy-rich activities, and interactive digital tools to empower students to think, read, write, and argue like real scientists and engineers. We’ve created a wide suite of professional development offerings that will help you meet your unique needs this school year. Find out more below!

Professional Learning Partner Guide Certified Provider

Amplify CKLA, ELA, and Science professional development has been vetted by Rivet Education’s team through a rigorous three-step process and is listed in the Professional Learning Partner Guide.

Three women sitting at a table using a tablet to discuss stimulus funding for schools in a professional meeting.

Plan your professional development

We’re excited to partner with you on your Amplify journey. Flexible professional development pathways have been designed to meet your needs.

Illustration of three educational phases: a teacher launches a rocket, another reads a book, and four individuals discuss in a meeting setting.

Recommended professional development plan

Our team has curated a recommended professional learning path from initial launch to continuous support. Use the Professional Development Planning Guide below to discuss the plan that best meets your school or district needs with your Account Executive.

View the Professional Development Planning Guide

Sessions overview

Recommended sessions are highlighted below.
Audience Title Duration Modality Available
Launch
K–5 instructional leaders Administrators’ program overview Half day Onsite/Remote Yes^
TK teachers Transitional kindergarten program overview Half day Onsite/Remote Yes
K–5 teachers Initial training 1 day onsite
or 2 days
remote		 Onsite/Remote Yes*^
K–5 teachers Program overview Half day Onsite/Remote Yes
Interactive Classroom consultation 90 min. Remote Yes
6–8 instructional leaders Administrators’ program overview Half day Onsite/Remote Yes
6–8 teachers Initial training 1 day onsite
or 2 days
remote		 Onsite/Remote Yes*
6–8 teachers Program overview Half day Onsite/Remote Yes
Strengthen
K–5 instructional leaders Strengthening consultation session 60 min. Remote 6/2022
Strengthening consultation package 3 1-hour sessions Remote 6/2022
K–5 teachers Guided unit internalization Half day Onsite/Remote Yes
K–5 teachers The Assessment System Half day Onsite/Remote Yes
Supporting all learners with complex texts Half day Onsite/Remote Yes
Writing in science Half day Onsite/Remote Yes
Supporting English learners Half day Onsite/Remote Yes
Strengthening consultation session 60 min. Remote 6/2022
Strengthening consultation package 3 1-hour sessions Remote 6/2022
6–8 instructional leaders Strengthening consultation session 60 min. Remote 6/2022
Strengthening consultation package 3 1-hour sessions Remote 6/2022
6–8 teachers Guided unit internalization Half day Onsite/Remote Yes
6–8 teachers The Assessment System Half day Onsite/Remote Yes
Supporting all learners with complex texts Half day Onsite/Remote Yes
Writing in science Half day Onsite/Remote Yes
Supporting English learners Half day Onsite/Remote Yes
Engineering Internships Half day Onsite/Remote Yes
Science Seminar Half day Onsite/Remote Yes
Strengthening consultation session 60 min. Remote  6/2022
Strengthening consultation package 3 1-hour sessions Remote  6/2022
Coach
K–5 instructional leaders Job-Embedded Coaching (JEC) 1 day Onsite Yes
K–5 teachers Job-Embedded Coaching (JEC) 1 day Onsite/Remote Yes
6–8 instructional leaders Job-Embedded Coaching (JEC) 1 day Onsite Yes
6–8 teachers Job-Embedded Coaching (JEC) 1 day Onsite/Remote Yes
Note for all workshops:  Any single three-hour offering can be repeated on the same day with different audiences to make one full-day session.
*When delivered remotely, this full-day initial training session (6 hours) is split into two half-day sessions (3 hours each). Part 1 and Part 2 may be scheduled consecutively on the same day or on different days, ideally within ~2 weeks. The same participants should attend both sessions in order to receive all content. This flexible scheduling opportunity for remote sessions will be available starting 6/2022.

^Session will be available for IC customers after June 1, 2022.

Launch

For teachers

Initial training

1 day onsite (6 hours) or 2 half days remote (6 hours)*
Grade band: K–1 / K–5 / 6–8
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8

In the first half of this session, participants learn the essentials necessary to implement Amplify Science with success. They learn to navigate the digital Amplify Science platform and become familiar with planning resources and strategies. Through a model lesson and guided reflection, participants build an understanding of the instructional approach to teaching and learning. In the second half of this session, participants dig deeper into unit resources to start planning for instruction for their first grade-level unit.

When delivered as a grade band session, Part 1 will feature an exemplar from the following units:

  • K–1 workshops feature an exemplar from the grade 1 unit Animal and Plant Defenses.
  • K–5 workshops feature an exemplar from the grade 4 unit Energy Conversions.
  • 6–8 workshops feature an exemplar from the Metabolism Core unit.

When delivered as a grade level session, Part 1 features the following units:

  • K: Needs of Plants and Animals
  • 1: Animal and Plant Defenses
  • 2: Plant and Animal Relationships
  • 3: Balancing Forces
  • 4: Energy Conversions
  • 5: Patterns of Earth and Sky

6–8 workshops feature one of the following units:

  • Metabolism
  • Plate Motion
  • Force and Motion

Interactive Classroom customers: Select K-5 grade band or K, 1, 2, 3, 4, 5 grade level sessions (available starting 6/2022)

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

*When delivered remotely, this full-day initial training session (6 hours) is split into two half-day sessions (3 hours each). Part 1 and Part 2 may be scheduled consecutively on the same day or on different days, ideally within two weeks. The same participants should attend both sessions in order to receive all content. This flexible scheduling opportunity for remote sessions will be available starting 6/2022.

Interactive Classroom consultation

90 minutes
Grade band: K–5
Prerequisite: Initial training or program overview

In this remote consultation session, participants prepare to leverage Amplify Science’s new K-5 Interactive Classroom experience. The session includes a walkthrough of new digital features available to teachers and an opportunity for participants to experience these enhancements through modeled activities from an exemplar K-5 unit. The session closes with time for participants to explore the digital features and ask questions to support their planning.

*This session is designed for experienced Amplify Science users who are new to adding Interactive Classroom.

Audience: Teachers, maximum 30 participants
Modality: Remote

Program overview

Half day (3 hours)
Grand band: K–1, K–5, 6–8
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8

In this session, participants learn the essentials necessary to implement Amplify Science with success. They learn to navigate the digital Amplify Science platform and become familiar with planning resources and strategies. Through a model lesson and guided reflection, participants build an understanding of the instructional approach to teaching and learning.

When delivered as a grade band session, an exemplar will be featured from the following units:

  • K–1 workshops feature an exemplar from the grade 1 unit Animal and Plant Defenses.
  • K–5 workshops feature an exemplar from the grade 4 unit Energy Conversions.
  • 6–8 workshops feature an exemplar from Metabolism.

When delivered as a grade level session, the following units will be featured:

  • K: Needs of Plants and Animals
  • 1: Animal and Plant Defenses
  • 2: Plant and Animal Relationships
  • 3: Balancing Forces
  • 4: Energy Conversions
  • 5: Patterns of Earth and Sky

6–8 workshops feature one of the following units:

  • Metabolism
  • Plate Motion
  • Force and Motion

Interactive Classroom customers: Select K-5 grade band or K, 1, 2, 3, 4, 5 grade level sessions

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

Transitional kindergarten program overview

Half day (3 hours)
Grade level: TK

In this session, participants dive into exploring and planning for the first TK unit, Wondering About Noises in Trees. They engage with model activities, experience key instructional routines, and plan how they’ll implement this flexible curriculum in their classrooms. Participants collaborate to build a deep understanding of the TK instructional approach and structure. They will leave ready to start instruction in their classrooms, and take away a suite of additional resources to support their preparation for other TK units.

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remotewelcome), maximum 30 participants
Modality: Onsite/Remote

For instructional leaders

Administrators’ program overview

Half day (3 hours)
Grade band: K–5 / 6–8

In this session, instructional leaders become familiar with the principles of phenomenon-based teaching and learning, and experience the instructional approach of Amplify Science units. Leaders consider their essential role supporting teachers and students with the implementation of a new science curriculum.

Interactive Classroom customers: Select K-5 grade band session (available starting 6/2022)

Audience: Administrators, department chairs, coaches, maximum 30 participants
Modality: Onsite/Remote

Strengthen

For teachers

The Assessment System

Half day (3 hours)
Grade band: K–5 / 6–8
Prerequisite: Initial training or program overview

In this session, participants learn about the structure and purpose of the varied formative and summative opportunities in the Amplify Science Assessment System. Participants experience and analyze a sample formative assessment, deepen their understanding of unit learning progressions, and acquire strategies for collecting, analyzing, and responding to student assessment data. Collaborative reflections and discussions support participants’ understanding of the relationships among different types of assessments and their unit’s learning goals.

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

Supporting all learners with complex texts

Half day (3 hours)
Grade band: K–5 / 6–8
Prerequisite: Initial training or program overview

In this session, participants learn strategies to support all students as they access the complex texts in Amplify Science units. They explore the connections among the ways professional scientists read and how Amplify Science lessons build students’ capacity as science readers. The workshop includes a model reading sequence, collaborative problem-solving around common student reading challenges, and planning time for upcoming reading lessons in participants’ units.

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

Writing in science

Half day (3 hours)
Grade band: K–5 / 6–8
Prerequisite: Initial training or program overview

K–5: In this session, participants develop an understanding of how the Amplify Science writing approach supports students to engage in science practices, make sense of science ideas, and develop as writers. Participants experience an example multimodal instructional sequence that demonstrates the connections among informal daily writing and the more structured formal scientific explanations and arguments students write in each Amplify Science unit. They dig into resources for analyzing student writing then apply their learning to plan for supporting student writing in their unit.

6-8: In this session, participants develop an understanding of how the Amplify Science writing approach supports students to engage in science practices, make sense of science ideas, and develop as writers. Participants experience an example instructional sequence that demonstrates the varied purposes for frequent small, informal writing opportunities in multimodal science instruction, then they analyze how each core unit’s culminating Science Seminar experience works as a scaffold to support students as they write sophisticated scientific arguments. The session closes with a guided reflection on strategies for supporting student writing.

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

Supporting English learners

Half day (3 hours)
Grade band: K–5 / 6–8
Prerequisite: Initial training or program overview

In this session, participants explore strategies to support English learners’ ability to do, talk, read, write, visualize, and construct arguments like scientists. By engaging in model activities, participants deepen their knowledge of the critical role that language and literacy play in developing scientific understanding. Participants become familiar with the research-based principles underlying the embedded supports and strategies in Amplify Science, which aid in students’ development of disciplinary literacy in science.

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

Guided unit internalization

Half day (3 hours)
Grade band: K–5 / 6–8
Grade level: TK, K, 1, 2, 3, 4, 5, 6, 7, 8
Prerequisite: Initial training or program overview

In this session, participants leverage a planning protocol to internalize an upcoming unit. They apply their understanding of how students engage in three-dimensional learning throughout the unit to plan for the diverse needs of their classrooms and students.

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

Engineering Internships

Half day (3 hours)
Grade level: 6, 7, 8
Prerequisite: Initial training or program overview

In this session, participants explore and plan for the first Engineering Internship of their grade-level course. Participants are oriented to the Futura Workspace and other digital tools used with students in the internship experience. Participants also dive deeper into how students apply science concepts from core units to construct design solutions, learning engineering concepts and practices throughout the process.

Workshop will feature one of the following units:

  • Metabolism Engineering Internship
  • Plate Motion Engineering Internship
  • Force and Motion Engineering Internship

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

Science Seminar

Half day (3 hours)
Grade band: 6–8
Prerequisite: Initial training or program overview

This session focuses on the culminating Science Seminar sequence at the end of the grades 6–8 core units, in which students apply the conceptual understanding built throughout the unit to engage in argumentation about a unique but related phenomenon. Participants experience a Science Seminar sequence from an exemplar unit as students do, then dive into a unit at their grade level to internalize the Science Seminar sequence and plan for instruction.

Audience: Teachers (administrators welcome), maximum 30 participants
Modality: Onsite/Remote

Strengthening consultation session

60-minute session
Grade band: K–5 / 6–8
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8
Prerequisite: Initial training or program overview

This 60-minute session focuses on a specific topic that will deepen teachers understanding of Amplify Science. An Amplify facilitator will align with the school or district leadership team in advance on the topic (chosen from a menu of options) that will best meet teachers’ unique options.

Topics include:

  • Supporting Diverse Learners: Exploring the resources (for K–8 teachers)
  • Supporting Diverse Learners: Leveraging and Building upon Embedded Supports A: Teacher modeling and student discourse (for K–8 teachers)
  • Supporting Diverse Learners: Leveraging and Building upon Embedded Supports B: Multimodal instruction
  • Planning an Amplify Science lesson (for K–8 teachers)
  • Unit kits and materials prep (for K–5 teachers)
  • Grading with Amplify Science (for K–8 teachers)
  • Analyzing Student Work (for K–8 teachers)

Available starting 6/2022.

Audience: Teachers, maximum 30 participants
Modality: Remote

Strengthening consultation package

3 1-hour sessions
Grade band:K–5 / 6–8
Grade level:K, 1, 2, 3, 4, 5, 6, 7, 8
Prerequisite:Initial training or program overview

This package consists of three 60-minute sessions that can be delivered on the same day or on different days. Each session will focus on a specific topic that will deepen teachers understanding of Amplify Science. An Amplify facilitator will align with the school or district’s leadership team in advance on the topic from a menu of options that will best meet teachers’ unique needs.

Available starting 6/2022.

Audience:Teachers, maximum 30 participants
Modality: Remote

For instructional leaders

Strengthening consultation session

60-minute session
Grade band: K–5 / 6–8
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8
Prerequisite: Administrators’ program overview

These 60 minute sessions will focus on a specific topic that will deepen instructional leaders’ understanding in Amplify Science and equip them in driving towards stronger student outcomes. An Amplify facilitator will align with the school or district’s leadership team in advance on the topic from a menu of options that will best meet instructional leaders’ unique needs.

Topic available for summer 2022: Amplify Science classroom look-fors (for K-8 leaders).

Available starting 6/2022.

Audience: Administrators, department chairs, coaches, maximum 30 participants
Modality: Remote

Strengthening consultation package

3 1-hour sessions
Grade band: K–5 / 6–8
Prerequisite: Administrators’ program overview

This package consists of three 60-minute sessions that can be delivered on the same day or on different days. Each session will focus on a specific topic that will deepen leaders’ understanding of Amplify Science. An Amplify facilitator will align with the school or district’s leadership team in advance on the topic from a menu of options that will best meet leaders’ unique needs.

Available starting 6/2022.

Audience: Administrators, department chairs, coaches, maximum 30 participants
Modality: Remote

Coach

For teachers

Job-Embedded Coaching (JEC) services: Teachers

1 day (6 hours)
Grade band: K–5 / 6–8
Grade level: K, 1, 2, 3, 4, 5, 6, 7, 8
Prerequisite: Initial training or program overview

Strengthen your implementation of Amplify Science with a coaching onsite visit for your teachers. An Amplify Science Professional Learning Specialist can visit classrooms for observation and debriefs with focused feedback and/or facilitate PLC or grade-level meetings to support teachers with planning decisions. The flexible coaching design allows for a collaborative and personalized approach to support effective program implementation.

Audience: Teachers, maximum 30 participants
Modality: Onsite/Remote

For instructional leaders

Job-Embedded Coaching (JEC): Administrators

1 day (6 hours)
Grade band: K–5 / 6–8
Prerequisite: Administrators’ program overview

In our Coaching sessions, instructional leaders engage in facilitated Professional Learning Walks (PLW)—non-evaluative classroom observations of Amplify Science classrooms that focus on building capacity to identify indicators of strong implementation of the program. Classroom look-fors focus on the use of instructional resources (material access/use and the Classroom Wall), instructional delivery (unpacking the unit phenomena and multimodal instruction), and monitoring of instruction (supporting all learners and use of the Assessment System). Leaders collaboratively analyze collected data in order to identify strengths and areas for growth specific to the implementation of Amplify Science for their teaching teams. Leaders leave with an action plan for supporting their teachers based on the analysis and reflection from the PLW.

Audience: Administrators, department chairs, coaches, maximum 30 participants
Modality: Onsite

Pricing

We offer the following pricing for training sessions and packages:

Session typePricing
2 consecutive full day onsite sessions$4,800
1-day onsite session$3,200
1-day remote session (2 half days)$1,500
1-day remote coaching session$1,200
Half-day onsite session$2,500
Half-day remote session$750
90-minute remote session$500
60-minute remote session$350
3 1-hour remote sessions$1,000
Customized Amplify Science onsite or remote packagesPrice will vary

Please note that the prices are general ranges and may be subject to change.

Contact

Amplify welcomes the opportunity to partner with schools and districts to design professional development plans and answer your questions.

If you would like to order any of our professional development services, please contact your local Amplify sales representative or call (800) 823-1969.

Planning and instructional resources

Using the Amplify NYC Science Benchmarks

Planning and Implementation Guides

NYC Field Trip List

Implementation Rubric for Administrators

6-8 Look-for tool

K-5 Look-for Tool (1 page)

NYSED Investigations and Amplify Alignment

For more guidance on the New York state investigations and suggested pacing, please log in to your NYC account and check out the NYC Public Schools Science Collaborative Website for Elementary and for Intermediate.

NYC Companion resources

6-8 Companion Lessons can be found in the Amplify Science platform!

A screenshot of a digital lesson on harnessing energy with an arrow pointing to a "Companion Lesson" button. The inset shows the companion PDF. The text provides instructions for accessing the lesson.

Grade 6 Lesson guides and Copymasters

  • Companion lesson: Insert after Lesson 2.2
  • Time frame: 60 minutes (can spread across multiple class periods)
  • NYSP–12SLS: PE: MS-PS3-6, DCI: PS3.B
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.3
  • Time frame: Two 45-minute class periods
  • NYSP–12SLS: PE: MS-PS2-3, MS-PS2-5, DCI: PS2.B
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.3 and after Investigating Non-Touching Forces
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-PS2-5, MS-PS2-3, DCI: PS2.B
  • Links (click to download):
  • Companion lesson: Insert after Lesson 2.5
  • Time frame: 105 minutes (can be spread across multiple class periods)
  • NYSP–12SLS: PE: MS-PS1-6, DCI: PS1.B
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.4
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-LS2-5, DCI: LS2.C, LS4.D
  • Links (click to download):
  • Companion lesson: Insert after Lesson 1.3
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-ESS2-4, DCI: ESS2.C
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.3*
  • Time frame: 90 minutes (can be spread across multiple class periods)
  • NYSP–12SLS: PE: MS-PS1-7, MS-ESS2-6, DCI: PS1.A, ESS2.C
  • Links (click to download):

*Note: The homework assignment for Ocean, Atmosphere, and Climate Lesson 3.3 (reading the article “Deep Ocean Currents: Driven by Density”) should be assigned after the Investigating Deep Ocean Currents companion lesson rather than after Lesson 3.3.

Grade 7 Lesson Guides and Copymasters

  • Companion lesson: Insert after Lesson 3.2
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-LS1-3, DCI: PS3.D, LS1.A
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.3 or later
  • Time frame: Three 45-minute class periods, each several days apart
  • NYSP–12SLS: PE: MS-LS1-8, DCI: LS1.D
  • Links (click to download):
  • Companion lesson: Insert after Lesson 3.5
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-LS1-6, MS-LS1-7, DCI: LS1.C, PS3.D
  • Links (click to download):
  • Companion lesson: Insert after Lesson 2.2
  • Time frame: 60 minutes (first and second reads can be spread across two class periods)
  • NYSP–12SLS: PE: MS-PS1-4, DCI: PS3.A
  • Links (click to download):
  • Companion lesson: Insert after Lesson 1.3
  • Time frame: 60 minutes
  • NYSP–12SLS: PE: MS-PS1-7, DCI: PS1.A
  • Links (click to download):
  • Companion lesson: Insert after Lesson 2.3, 2.4, or 2.5
  • Time frame: Two 45-minute class periods
  • NYSP–PE: MS-PS1-8, MS-PS1-2 DCI: PS1.A, PS1.B
  • Links (click to download):

Grade 8 Lesson Guides and Copymaster

NYC Companion Kits

Materials needed to teach Amplify Science lessons are provided in a kit for each unit. While some materials used in the NYC Companion Lessons are also found in a unit’s kit, materials specific to the companion lessons are provided in NYC Companion Kits. The contents of each kit and any additional materials needed to teach the companion lessons are listed in the PDFs provided below. Please select your grade to view or download the list.

NYC Student Editions (print)
The NYC Student Editions are durable student references that compile all reading material required for a grade level, including the articles students read for NYC Companion Lessons. Students reading in the Student Edition should annotate the text directly with sticky notes to achieve the full benefits of Active Reading. The Active Reading approach was designed as an interactive process in which students highlight and annotate digital or hard copies of articles directly. Printable versions of the articles are available in the downloads section below.

It is recommended that NYC teachers insert this additional lesson between Lessons 3.1 and 3.2 in order to have students complete a reading assignment in class along with an additional Sim activity.

  • Lesson: Earth, Moon and Sun: Modeling Seasons
  • Lesson Placement: Insert between Lessons 3.1 and 3.2*
  • Links (click to download):

*If teaching this Modeling Seasons lesson, do not assign reading “The Endless Summer of the Arctic Tern” article for homework in Lesson 3.1. However, students should still model a lunar eclipse with the Modeling Tool for homework, as they will be revisiting and revising this model in Lesson 3.3.

NYC Investigation Notebooks (for teacher download)

* includes NYC Companion Lesson Copymaster(s)

* includes NYC Companion Lesson Copymaster(s)

  • Geology on Mars
  • Earth, Moon, and Sun
  • Force and Motion
  • Engineering Internship: Force and Motion
  • Magnetic Fields*
  • Light Waves
  • Traits and Reproduction
  • Natural Selection
  • Evolutionary History

* includes NYC Companion Lesson Copymaster(s)

Remote and hybrid learning resources

Welcome, Nebraska educators!

Designed from the ground up for the NGSS to teach students to think, read, write, and argue like real scientists and engineers, Amplify Science combines literacy-rich activities with hands-on learning and digital tools to engage students in exploring compelling phenomena in every unit.

Students in a classroom interact with educational technology, featuring a diagram and charts on a screen, while working collaboratively on a laptop.

Overview

Developed by UC Berkeley’s Lawrence Hall of Science, our program features:

  • phenomena-based approach where students construct a more complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Newly crafted units, chapters, lessons, and activities designed to deliver true 3-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.

Hear what these educators have to say about the program. >

Explore your grade level

Get started by watching this class share what they’re figuring out with Amplify Science. >

Then select your grade level below to learn more about how we make this type of rich learning accessible to all students at every grade.

Grades K-5 Grades 6–8

Elementary school

When you’re ready:

  1. Find a summary of each unit below including each unit’s student role and anchor phenomenon.
  2. Download some helpful resources to support your review.
  3. Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
A boy reads a book with an illustrated background featuring a dinosaur skull, the Earth, trees, clouds, and water.
An illustration from Needs of Plants and Animals unit

Unit 1

Needs of Plants and Animals

Student role: Scientists

Phenomenon: There are no monarch caterpillars in the Mariposa Grove community garden ever since vegetables were planted.

An illustration from the Pushes and Pulls unit

Unit 2

Pushes and Pulls

Student role: Pinball engineers

Phenomenon: Pinball machines allow people to control the direction and strength of forces on a ball.

Silueta de una estructura de parque infantil contra un cielo azul con nubes y tres soles amarillos.

Unit 3

Sunlight and Weather

Student role: Weather scientists

Phenomenon: Students at one school are too cold during morning recess, while students at another are too hot during afternoon recess.

Illustration of sea turtles swimming among seaweed in the ocean, with a large shark in the background.

Unit 1

Animal and Plant Defenses

Student role: Marine scientists

Phenomenon: Spruce the Sea Turtle will soon be released back into the ocean, where she will survive despite predators.

An illustration from the Light and Sound unit

Unit 2

Light and Sound

Student role: Light and sound engineers

Phenomenon: A puppet show company uses light and sound to depict realistic scenes in puppet shows.

An illustration from the Spinning Earth unit

Unit 3

Spinning Earth

Student role: Sky scientists

Phenomenon: The sky looks different to Sai and his grandma when they talk on the phone at night.

An elephant standing next to a tree uses its trunk to pick a fruit from a branch while more fruit hangs above.

Unit 1

Plant and Animal Relationships

Student role: Plant scientists

Phenomenon: No new chalta trees are growing in the fictional Bengal Tiger Reserve in India.

A hand holds a red bean on a table, while a wooden stick spreads white glue and scattered beans. Also on the table are a white cup and a yellow pen.

Unit 2

Properties of Materials

Student role: Glue engineers

Phenomenon: Different glue recipes result in glues that have different properties.

Ilustración de una costa con acantilados, un edificio de centro recreativo con un techo rojo y un letrero, árboles de hoja perenne, una bandera azul y una playa de arena debajo.

Unit 3

Changing Landforms

Student role: Geologists

Phenomenon: The cliff on which Oceanside Recreation Center is situated appears to be receding.

Una ilustración de un tren de alta velocidad moderno y aerodinámico que viaja por una vía elevada con un paisaje verde de fondo.

Unit 1

Balancing Forces

Student role: Engineers

Phenomenon: The fictional town of Faraday is getting a new train. Unlike typical trains, this one floats, which is causing some concern among the town’s citizens.

An illustration from the Inheritance and Traits unit

Unit 2

Inheritance and Traits

Student role: Wildlife biologists

Phenomenon: An adopted wolf in Graystone National Park has some traits in common with one wolf pack in the park and other traits in common with a different pack.

An illustration from the Environments and Survival unit

Unit 3

Environments and Survival

Student role: Biomimicry engineers

Phenomenon: Over 10 years, a population of grove snails has changed. Populations with yellow shells have decreased, while those with banded shells have increased.

An illustration from the Weather and Climate unit

Unit 4

Weather and Climate

Student role: Meteorologists

Phenomenon: Three different islands, each a contender for becoming an orangutan reserve, experience different weather patterns.

An illustration from the Energy Conversions unit

Unit 1

Energy Conversions

Student role: System engineers

Phenomenon: The fictional town of Ergstown experiences frequent blackouts. Their electrical system seems to be failing.

An illustration from the Vision and Light unit

Unit 2

Vision and Light

Student role: Conservation biologists

Phenomenon: The population of Tokay geckos in a rain forest in the Philippines has decreased since the installation of new highway lights.

An illustration from the Earth's Features unit

Unit 3

Earth’s Features

Student role: Geologists


Phenomenon: A mysterious fossil is discovered in a canyon within the fictional Desert Rocks National Park.

An illustration from the Waves, Energy, and Information unit

Unit 4

Waves, Energy, and Information

Student role: Marine scientists

Phenomenon: Mother dolphins in the fictional Blue Bay National Park communicate with their calves despite the distance between them.

An illustration from the Patterns of Earth and Sky unit

Unit 1

Patterns of Earth and Sky

Student role: Astronomers

Phenomenon: An ancient artifact depicts what we see in the sky at different times of the day, but it appears to be missing a piece.

An illustration from the Modeling Matter unit

Unit 2

Modeling Matter

Student role: Food scientists

Phenomenon: Some ingredients dissolve in a salad dressing while others, like oil and vinegar, appear to separate

Illustration of a pixelated green mountain cliff deconstructing into a digital grid, with red dots floating over a tranquil sea and flying white birds.

Unit 3

The Earth System

Student role: Water resource engineers

Phenomenon: East Ferris, a city on one side of the fictional Ferris Island, is experiencing a water shortage, while West Ferris is not.

An illustration from the Ecosystem Restoration unit

Unit 4

Ecosystem Restoration

Student role: Ecologists

Phenomenon: The jaguars, sloths, and cecropia trees in a reforested section of a Costa Rican rain forest are not growing or thriving.

Middle school

When you’re ready:

  1. Find a summary of each unit below including each unit’s student role and anchor phenomenon.
  2. Download some helpful resources to support your review.
  3. Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
A person in a black hoodie smiles while working on a laptop, surrounded by illustrations of rockets, satellites, popsicles, and the Earth.
Abstract art with vibrant colors featuring a yellow silhouette of a person holding a book against a background of geometric shapes, swirling patterns, and bold textures.

LAUNCH

Microbiome

Domain: Life Science

Unit type: Launch

Student role: Microbiological researchers

Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.  

Abstract artwork of a person's side profile with geometric shapes and colorful patterns flowing from the head, holding a small sledgehammer. A vision chart is visible in the corner.

CORE

Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

Phenomenon: Elisa, a young patient, feels tired all the time.  

Orange abstract background with hexagonal shapes featuring icons of a bar chart, plant, safety vest, test tube, peach, and stethoscope.

ENGINEERING INTERNSHIP

Metabolism Engineering Internship

Domains: Life Science, Engineering Design

Unit type: Engineering internship

Student role: Food engineers

Phenomenon: Designing health bars with different molecular compositions can effectively meet the metabolic needs of patients or rescue workers.  

Imagen que muestra un gráfico de arañas de diferentes colores con patrones distintos de patas y cuerpo, incluidas variaciones de color marrón, amarillo y azul. El fondo es una superficie oscura y texturizada.

CORE

Traits and Reproduction

Domain: Life Science

Unit type: Core

Student role: Biomedical students

Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.  

Illustration of a person in a red hat and fur-lined coat with eyes closed, surrounded by large orange circles on a dark background.

CORE

Thermal Energy

Domain: Physical Science

Unit type: Core

Student role: Thermal scientists

Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school.  

Abstract artwork depicting a bright sun with blue and orange swirling patterns next to green hills under a sky with shades of blue, orange, and red.

CORE

Ocean, Atmosphere, and Climate

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Climatologists

Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.  

An illustration from the Weather Patterns unit

CORE

Weather Patterns

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Forensic meteorologists

Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.  

An illustration from the Earth's Changing Climate unit

CORE

Earth’s Changing Climate

Domains: Earth and Space Science, Life Science

Unit type: Core

Student role: Climatologists

Phenomenon: The ice on Earth’s surface is melting.  

Abstract geometric design in shades of blue and purple featuring a hexagon with icons of a building, wrench, molecules, sun, paint can, and screwdriver.

Engineering Internship

Earth’s Changing Climate Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Civil engineers

Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.  

A barren, rocky desert landscape with rover tracks leading to a distant vehicle on a hill under a hazy sky.

LAUNCH

Geology on Mars

Domain: Earth and Space Science

Unit type: Launch

Student role: Planetary geologists

Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable.  

Two prehistoric reptiles with long snouts and tails are near the shore, one on land and one in water, with plants, rocks, and an island in the background.

CORE

Plate Motion

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.   

Geometric design featuring a telescope, mountain, sound waves, and cosmic elements on a purple hexagonal background.

ENGINEERING INTERNSHIP

Plate Motion Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Patterns in earthquake data can be used to design an effective tsunami warning system.  

Illustration of a cross-section of Earth showing a volcano near the ocean. Trees, mountains, and clouds are visible above, with subterranean layers below.

CORE

Rock Transformations

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.  

Ilustración que muestra las etapas de fusión de una paleta de naranja: entera, parcialmente derretida, más derretida y casi derretida por completo, con palitos de madera, sobre un fondo morado.

CORE

Phase Change

Domains: Physical Science, Earth and Space Science

Unit type: Core

Student role: Chemists

Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart.  

Green geometric graphic featuring icons: a baby, thermometer, layers, medical alert, and a flame.

ENGINEERING INTERNSHIP

Phase Change Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Chemical engineering interns

Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature.  

An illustration from the Chemical Reactions unit

CORE

Chemical Reactions

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Forensic chemists

Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.   

An illustration of a whale with jellyfish and turtles from Amplify Science

CORE

Populations and Resources

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The size of the moon jelly population in Glacier Sea has increased.  

Low-poly landscape with trees and mushrooms. A fox sniffs the ground, a rabbit sits nearby, and mountains and sun are in the background.

CORE

Matter and Energy in Ecosystems

Domains: Life Science, Earth and Space Science, Physical Science

Unit type: Core

Student role: Ecologists

Phenomenon: The biodome ecosystem has collapsed.  

Two people climbing rocky terrain; illustrations show a hiking boot and a belt with gear.

LAUNCH

Harnessing Human Energy

Domains: Physical Science, Earth and Space Science, Engineering Design

Unit type: Launch

Student role: Energy scientists

Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.  

Illustration of a futuristic space station with large solar panels, orbiting in deep space, emitting a blue glow from its propulsion system.

CORE

Force and Motion

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.   

Green geometric background with a hexagonal emblem containing a parachute icon, ruler, bandage, and stacked layers on a gradient pattern.

ENGINEERING INTERNSHIP

Force and Motion Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents.  

Illustration of a roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.

CORE

Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: During a test launch, a spacecraft traveled much faster than expected.  

An illustration from the Light Waves unit

CORE

Light Waves

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Spectroscopists

Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.   

A city skyline at night with a prominent full moon, stars in the sky, and a bridge silhouette on the left.

CORE

Earth, Moon, and Sun

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Astronomers

Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.  

Four low-poly dinosaurs with missing body sections are standing in a row; one is yellow, and the others are green. They have purple spikes and red patches on their bodies.

CORE

Natural Selection

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The newt population in Oregon State Park has become more poisonous over time.  

Red geometric background with icons including a mosquito, DNA strand, bar chart, and world map inside a hexagon.

ENGINEERING INTERNSHIP

Natural Selection Engineering Internship

Domains: Engineering Design, Life Science

Unit type: Engineering internship

Student role: Clinical engineers

Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development while helping malaria patients.   

Two giant tortoises with long necks stand near water; one tortoise feeds on leaves from a tree while the other is near dense vegetation.

CORE

Evolutionary History

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Paleontologists

Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.    

Resources to support your review

Select a topic below to explore helpful resources with more information about Amplify Science, the program’s development, and pedagogy.

Dos niñas están sentadas en una mesa, mirando juntas la pantalla de una computadora portátil en un salón de clases. Al fondo se ven estanterías con libros y materiales de clase.
Two children engaged in an animated conversation while sitting at a school desk with laptops and books.
Phenomena and storylines (K–5)

Read more about the real-world phenomena featured in each unit.

Children doing schoolwork at home
Phenomena and storylines (6–8)

Read more about the real-world phenomena featured in each unit.

Four-step educational infographic depicting problem-solving process: engaging with real-world problems, exploring multiple sources, constructing explanations, and applying knowledge to new problems.
Integrated 5e model

Learn how the 5E elements are integrated throughout every unit.

A woman smiling and gesturing while speaking, seated in a classroom with computers and educational materials around her, with a paused video screen featuring text about "amplify science.
[Video] Planning in action (K–5)

Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.

A screenshot from a video titled "amplify science in action: a week in the..." featuring a smiling woman sitting in a classroom setting.
[Video] Planning in action (6–8)

Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.

Two children sitting at a table, one in a yellow shirt and the other in pink, smiling and looking forward.
[Video] Hands-on in action (K–5)

Watch Amplify Science students conduct hands-on investigations.

A boy in a science classroom observes a reaction in a clear cup. Other students and lab materials are in the background.
[Video] Hands-on in action (6–8)

Watch Amplify Science students conduct hands-on investigations.

Two children in school uniforms work together on laptops in a classroom setting, with focus on learning and collaboration.
[Video] Simulations and modeling tools (K–5)

Watch how students investigate phenomena with the help of digital tools.

Students sitting at a table using laptops, engaging in a classroom activity.
[Video] Simulations and modeling tools (6–8)

Watch how students investigate phenomena with the help of digital tools.

A young girl wearing safety goggles stretches a gooey substance from a cup in a kitchen or classroom setting.
Summary of Investigations (K–5)

Explore the types of investigations that students conduct.

A young person wearing gloves looks through a microscope at a table with laboratory supplies, including bottles, slides, and a tray, against a plain blue background.
Summary of Investigations (6–8)

Explore the types of investigations that students conduct.

A young boy and girl sitting in a classroom, reading a book together with focused expressions.
Program structure and components (K–5)

Take a closer look at how the program is organized.

Teacher assisting two students working on laptops in a classroom; other students are in the background.
Program structure and components (6–8)

Take a closer look at how the program is organized.

Digital collage of various devices displaying educational content about earth’s energy system, including graphs and text explanations.
[Video] New! Classroom Slides

Learn more about our customizable PowerPoints for every lesson.

A laptop screen displays a writing lesson with prompts and a student's response in Amplify Classwork. The student's answer discusses dangers related to a specific scenario involving a sick child.
Classwork (6–8)

A new, intuitive approach to reviewing student work online.

students collaborating and using laptops
English Learners

Learn how we make learning accessible for English learners.

Amplify Science California supports you every step of the way on your journey to the California NGSS.
Students needing support

Learn how we make learning accessible for students who need more support.

Teacher using a tablet while conducting an mCLASS reading intervention with three young students seated around a table in a classroom.
Students ready for more

Learn how we make learning more rigorous for students ready for a challenge.

Two young children sit at a table looking at an open book, with other books placed in front of them. A play button is visible over the image.
[Video] Literacy in action (K–5)

Watch students use scientific text to obtain information and practice reading skills, while using writing prompts to create arguments using evidence

A student writes in a notebook, holding a pencil, focused on the task.
[Video] Literacy in action (6–8)

Watch students use scientific text to obtain information and practice reading skills, while using writing prompts to create arguments using evidence.

A teacher in a green shirt helps a young student with writing at a classroom table, with other students and large numbers visible on the wall in the background.
Literacy-rich science instruction (K–5)

Immersing young students in reading, writing, and arguing like real scientists and engineers.

Two students sit at a table in a classroom, working on an assignment together. Other students are also seated and appear to be engaged in their work. Papers and books are spread out on the tables.
Active Reading in grades 6–8

Engaging middle school students in complex science texts.

Two boys work together on a laptop while a woman—likely one of their middle school teachers—sits beside them, observing and smiling in a classroom setting.
Accessibility

Read more about text design and accessibility, including embedded Read-Aloud audio.

A teacher discusses educational content in front of a whiteboard while students in the classroom raise their hands eagerly.
Approach to assessment (K–5)

Learn about our embedded formative and summative assessments.

Two students sit at desks writing in notebooks and using laptops in a classroom setting.
Approach to assessment (6–8)

Learn about our embedded formative and summative assessments.

A teacher and a young student looking at a laptop together in a colorful classroom decorated with children's artwork.
NGSS Benchmark assessments

Learn more about the Next Generation Science Standards Benchmark assessments created by Amplify.

A young girl in a classroom gives a thumbs up with both hands, smiling broadly, while other students look on in the background.
NGSS alignment (K–5)

NGSS alignment by performance expectation.

Two students in a classroom, one looking at the camera and the other listening intently, with a whiteboard displaying educational content in the background.
NGSS alignment (6–8)

NGSS alignment by performance expectation.

Two children sit at a table with Chromebooks, facing each other and talking, in a classroom with books and storage bins in the background.
Remote and hybrid learning guide

Amplify is here to help! Amplify Science will soon feature product enhancements and new resources that will help manage the new landscape of back-to-school 2020.

Educational presentation slides from grade 8 amplify science materials spanish kit, displaying various science topics like geology and biology.
Spanish-language supports

Learn more about the Spanish-language supports in Amplify Science.

Ready to start exploring with digital access?

A woman sits at a desk in a classroom, working on a laptop with an open binder and papers in front of her.

Contact an Amplify representative

Laina Armbruster
larmbruster@amplify.com
(602) 791-4135

Bob McCarty
rmccarty@amplify.com
(435) 655-1731

Kristin McDonald
kmcdonald@amplify.com
(515) 240-0244

Welcome, Middle School Science Reviewers!

Thank you for taking the time to review Amplify Science for grades 6–8. On this site, you’ll find all the resources you need to learn more about this engaging and robust NGSS program. Plus, we make it easy to experience our program firsthand with a live demo account that features our interactive learning platform.

A person in protective glasses examines a glass of water, surrounded by illustrations of a rocket, telescope, polar bear, clouds, rain, and moon phases on a colorful abstract background.

Overview

With Amplify Science, students don’t just passively learn about science concepts.

No matter where your students are learning—whether at school or at home—they take on the role of scientists and engineers to actively investigate and make sense of real-world phenomena. They do this through a blend of cohesive and compelling storylines, hands-on investigations, collaborative discussions, literacy-rich activities, and interactive digital tools.

Listen to these educators share how the program empowers students to think, read, write, and argue like real scientists and engineers every day.

EdReports All-Green

Amplify Science for grades K–8 has been rated all-green by EdReports.

Read the review on EdReports.

A boy stirs a clear liquid in a plastic cup while a girl smiles beside him in a classroom with students and a teacher in the background. EdReports badge is overlaid in the corner.

Program structure

Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities.

As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon. It’s this proven program structure and lesson design that enables Amplify Science to address 100% of the NGSS in fewer days than other programs.

Graphic showing a research process with four steps: spark intrigue with a real-world problem, explore evidence, explain and elaborate, and evaluate claims, connected in a cycle with arrows.

Unit Sequence

Our lessons follow a structure that is grounded in regular routines while still being flexible enough to allow for a variety of learning experiences.
 
In fact, our multi-modal instruction offers more opportunities for students to construct meaning, and practice and apply concepts than any other program. What’s more, our modular design means our units can be flexibly arranged to support your instructional goals.

Collage of four images: a watercolor desert scene, three kids examining a gadget, a hand placing beads into a container, and a woman in a sunhat in a stylized field.
Abstract art with vibrant colors featuring a yellow silhouette of a person holding a book against a background of geometric shapes, swirling patterns, and bold textures.

Unit 1

Microbiome

Domain: Life Science

Unit type: Launch

Student role: Microbiological researchers

Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.  

Abstract artwork of a person's side profile with geometric shapes and colorful patterns flowing from the head, holding a small sledgehammer. A vision chart is visible in the corner.

Unit 2

Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

Phenomenon: Elisa, a young patient, feels tired all the time.  

Orange abstract background with hexagonal shapes featuring icons of a bar chart, plant, safety vest, test tube, peach, and stethoscope.

Unit 3

Metabolism Engineering Internship

Domains: Life Science, Engineering Design

Unit type: Engineering internship

Student role: Food engineers

Phenomenon: Designing health bars with different molecular compositions can effectively meet the metabolic needs of patients or rescue workers.  

An image showing a graphic of spiders of different colors with distinct leg and body patterns, including brown, yellow, and blue variations. The background is a dark, textured surface.

Unit 4

Traits and Reproduction

Domain: Life Science

Unit type: Core

Student role: Biomedical students

Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.  

Illustration of a person in a red hat and fur-lined coat with eyes closed, surrounded by large orange circles on a dark background.

Unit 5

Thermal Energy

Domain: Physical Science

Unit type: Core

Student role: Thermal scientists

Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school. 

Abstract artwork depicting a bright sun with blue and orange swirling patterns next to green hills under a sky with shades of blue, orange, and red.

Unit 6

Ocean, Atmosphere, and Climate

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Climatologists

Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.  

Illustration of a village with houses, fields and mountains under a cloudy sky with waves of wind or rain.

Unit 7

Weather Patterns

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Forensic meteorologists

Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.  

A polar bear stands on a small ice floe in the ocean with an orange sun in the sky and distant icy mountains in the background.

Unit 8

Earth’s Changing Climate

Domains: Earth and Space Science, Life Science

Unit type: Core

Student role: Climatologists

Phenomenon: The ice on Earth’s surface is melting.  

Abstract geometric design in shades of blue and purple featuring a hexagon with icons of a building, wrench, molecules, sun, paint can, and screwdriver.

Unit 9

Earth’s Changing Climate Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Civil engineers

Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.  

A barren, rocky desert landscape with rover tracks leading to a distant vehicle on a hill under a hazy sky.

Unit 1

Geology on Mars

Domain: Earth and Space Science

Unit type: Launch

Student role: Planetary geologists

Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable. 

Two prehistoric reptiles with long snouts and tails are near the shore, one on land and one in water, with plants, rocks, and an island in the background.

Unit 2

Plate Motion

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.  

Geometric design featuring a telescope, mountain, sound waves, and cosmic elements on a purple hexagonal background.

Unit 3

Plate Motion Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Patterns in earthquake data can be used to design an effective tsunami warning system.  

Illustration of a cross-section of Earth showing a volcano near the ocean. Trees, mountains, and clouds are visible above, with subterranean layers below.

Unit 4

Rock Transformations

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.  

Illustration showing the stages of melting an orange popsicle: whole, partially melted, more melted, and almost completely melted, with wooden sticks, on a purple background.

Unit 5

Phase Change

Domains: Physical Science, Earth and Space Science

Unit type: Core

Student role: Chemists

Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart

Green geometric background with a hexagonal emblem containing a parachute icon, ruler, bandage, and stacked layers on a gradient pattern.

Unit 6

Force and Motion Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents.  

Abstract digital artwork featuring numerous red and gray circles overlapping a split background of blue and light purple, creating a dynamic and energetic composition.

Unit 7

Chemical Reactions

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Forensic chemists

Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.  

An illustration of a whale with jellyfish and turtles from Amplify Science

Unit 8

Populations and Resources

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The size of the moon jelly population in Glacier Sea has increased. 

Low-poly landscape with trees and mushrooms. A fox sniffs the ground, a rabbit sits nearby, and mountains and sun are in the background.

Unit 9

Matter and Energy in Ecosystems

Domains: Life Science, Earth and Space Science, Physical Science

Unit type: Core

Student role: Ecologists

Phenomenon: The biodome ecosystem has collapsed.  

Two people climbing rocky terrain; illustrations show a hiking boot and a belt with gear.

Unit 1

Harnessing Human Energy

Domains: Physical Science, Earth and Space Science, Engineering Design

Unit type: Launch

Student role: Energy scientists

Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.  

A spacecraft approaches and docks with a space station featuring large blue solar panels, set against a backdrop of outer space.

Unit 2

Force and Motion

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.

Green geometric graphic featuring icons: a baby, thermometer, layers, medical alert, and a flame.

Unit 3

Phase Change Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Chemical engineering interns

Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature.  

Illustration of a roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.

Unit 4

Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: During a test launch, a spacecraft traveled much faster than expected.  

Illustration of Earth with arrows and wavy lines representing solar radiation entering the atmosphere, showing a focus on the Asia-Pacific region.

Unit 5

Light Waves

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Spectroscopists

Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.

A city skyline at night with a prominent full moon, stars in the sky, and a bridge silhouette on the left.

Unit 6

Earth, Moon, and Sun

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Astronomers

Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.  

Four low-poly dinosaurs with missing body sections are standing in a row; one is yellow, and the others are green. They have purple spikes and red patches on their bodies.

Unit 7

Natural Selection

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The newt population in Oregon State Park has become more poisonous over time.  

Red geometric background with icons including a mosquito, DNA strand, bar chart, and world map inside a hexagon.

Unit 8

Natural Selection Engineering Internship

Domains: Engineering Design, Life Science

Unit type: Engineering internship

Student role: Clinical engineers

Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development while helping malaria patients.  

Two giant tortoises with long necks stand near water; one tortoise feeds on leaves from a tree while the other is near dense vegetation.

Unit 9

Evolutionary History

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Paleontologists

Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.    

Access program

Watch the video to the right plus the ones below showing you how to navigate our digital platform. When you’re ready, follow the instructions below to log into our live demo account.

  • Click the orange button below to access the platform.
  • Choose the resources you’d like to review.
  • Pick your grade level from the drop-down menu.
  • Scroll down to find additional grade-level resources.
Access the digital platform now

Navigating an Engineering Internship (Part 1)

This Part 1 video demonstrates how Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. In the process, they apply and deepen their learning from Core units.

Navigating an Engineering Internship (Part 2)

This Part 2 video demonstrates how to use the Futura Workspace to manage the immersive experience of the Engineering Internship units. This includes guidance on how to create student groups, how to review student work, and how to send students targeted feedback on their designs.

Navigating our reporting tools

Teachers of Amplify Science grades 6–8 have access to a feature called Reporting. When unit assessments are administered digitally, the Reporting tool enables teachers to analyze student performance on the unit assessments.

Differentiation post-assessment

Every core unit of Amplify Science 6–8 features a formal formative assessment opportunity at the mid-way point, or “Critical Juncture,” of the unit, which provides an important opportunity for differentiation.

Resources

An adult sits on a couch using a laptop while a child next to them does homework in a notebook.

Remote and Hybrid Learning Guide

Learn more about new product enhancements and resources to help you and your sta…

Two students collaborate at a desk, discussing a science workbook. Other students are visible in the background, engaged in the vibrant atmosphere of the classroom.

Course structure for 6–8

Take a closer look at how the program is organized.

Illustration of a roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.

Unit phenomena for 6–8

Take a closer look at the middle school unit phenomena featured in each grade le…

A laptop screen displays a simulation about Earth's energy system, with surrounding images showing diagrams and energy flow models.

Classroom Slides for 6–8

Classrooms Slides for middle school are coming soon! These customizable PowerPoi…

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

Sims for 4–8

Take a closer look at the digital Simulations included at each grade level.

A student reviews a science textbook and looks at a laptop in a classroom, while other students work together on their science projects in the background.

Active reading in 6–8

Learn how we support students in learning how to interact with scientific texts….

A young person wearing gloves looks through a microscope at a table with laboratory supplies, including bottles, slides, and a tray, against a plain blue background.

Investigations for 6–8

Explore the types of investigations that take place in middle school classrooms….

A collection of assorted electronic components and supplies, including batteries, motors, wires, switches, rubber bands, small propellers, cups, solar panel, bulbs, and fasteners.

Materials Kits for 6–8

See what components come in our materials kits!

Two students sit at desks writing in notebooks and using laptops in a classroom setting.

Approaches to assessment in 6–8

Learn about our middle school embedded assessments.

Get in touch

Smiling man with short hair and a trimmed beard wearing a light blue collared shirt against a plain white background.

Have questions? Bob McCarty is standing by and ready to help.

Robert “Bob” McCarty
Senior Account Executive
(435) 655-1731
rmccarty@amplify.com

Welcome to Amplify Science for grades 6–8!

On this site, you’ll find resources to guide you in your review.

When you’re ready to explore full units in the digital Teacher’s Guide, click the “Review” button at the bottom of this page.

About the program

In every unit of Amplify Science, students take on the roles of scientists and engineers to figure out real-world phenomena. Students actively investigate compelling questions by finding and evaluating evidence, then developing convincing arguments. These engaging roles and phenomena bring science to life in your classroom.

The program is built from the ground up for new science standards and three-dimensional learning. The Next Generation Science Standards have raised the bar in science education. We set out to create a science program that educators can leverage to bring three-dimensional learning to life for their students.

Hear from educators like you

Hear from teachers, administrators, and students across the country who are using Amplify Science in their classrooms right now.

Resources to support your review

Download the resources below before you review the program to better understand the program structure, components, real-world phenomena, digital resources, and more.

Walkthrough video

Before you explore the program, watch this video overview and get familiar with the digital Teacher’s Guide and where to find resources for you and your students online.

Start your review

To complete your review digitally, click the orange button below to explore the digital Teacher’s Guide. You’ll have access to one full unit from every grade.

When you explore the digital Teacher’s Guide, a quick guided tour will familiarize you with navigation of the program and its features.

Review the digital Teacher’s Guide now

While you can access all of the print resources from the digital Teacher’s Guide, we’ve collected a few exemplars here from each unit:

Student Investigation Notebook
  1. Metabolism Student Investigation Notebook and science article sample
  2. Metabolism Student Investigation Notebook and science article sample (Spanish)
Teacher’s Guide
  1. Metabolism Teacher’s Guide sample
Student Investigation Notebook
  1. Plate Motion Student Investigation Notebook and science article sample
  2. Plate Motion Student Investigation Notebook and science article sample (Spanish)
Teacher’s Guide
  1. Plate Motion Teacher’s Guide sample
Student Investigation Notebook
  1. Force and Motion Student Investigation Notebook and science article sample
  2. Force and Motion Student Investigation Notebook and science article sample (Spanish)
Teacher’s Guide
  1. Force and Motion Teacher’s Guide sample
Student Investigation Notebook
  1. Earth’s Changing Climate Student Investigation Notebook and science article sample
  2. Earth’s Changing Climate Student Investigation Notebook and science article sample (Spanish)
Teacher’s Guide
  1. Earth’s Changing Climate Teacher’s Guide sample
Student Investigation Notebook
  1. Traits and Reproduction Student Investigation Notebook and science article sample
  2. Traits and Reproduction Student Investigation Notebook and science article sample (Spanish)
Teacher’s Guide
  1. Traits and Reproduction Teacher’s Guide sample
Student Investigation Notebook
  1. Force and Motion Student Investigation Notebook and science article sample
  2. Force and Motion Student Investigation Notebook and science article sample (Spanish)
Teacher’s Guide
  1. Force and Motion Teacher’s Guide sample

Request more information

If you’d like to review the full program, request physical samples, or speak to a product expert for more information, fill out the form below and we’ll be in touch.

Middle-of-year pilot

To view this protected page, enter the password below:



Welcome, Ohio educators!

Designed from the ground up to teach students to think, read, write, and argue like real scientists and engineers, Amplify Science combines literacy-rich activities with hands-on learning and digital tools to engage students in exploring compelling phenomena in every unit.

Students in a classroom interact with educational technology, featuring a diagram and charts on a screen, while working collaboratively on a laptop.

Overview

Developed by UC Berkeley’s Lawrence Hall of Science, our program features:

  • phenomena-based approach where students construct a more complex understanding of each unit’s anchor phenomenon.
  • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
  • Newly crafted units, chapters, lessons, and activities designed to deliver true 3-dimensional learning.
  • An instructional design that supports all learners in accessing all standards.

Hear what these educators have to say about the program. >

Approach to literacy

Two young children sit at a classroom table reading a book together, with educational materials spread out in front of them.

[Video] Literacy in action (K–5)

Watch students use scientific text to obtain information and practice reading skills, while using writing prompts to create arguments using evidence.

A student sits at a desk writing with a pencil while focused on his work, with classroom materials visible in the background.

[Video] Literacy in action (6–8)

Watch students use scientific text to obtain information and practice reading skills, while using writing prompts to create arguments using evidence.

A teacher in a green shirt helps a young student with writing at a classroom table, with other students and large numbers visible on the wall in the background.

Literacy-rich science instruction (K–5)

Immersing young students in reading, writing, and arguing like real scientists and engineers.

Two students sit at a table in a classroom, working on an assignment together. Other students are also seated and appear to be engaged in their work. Papers and books are spread out on the tables.

Active Reading in grades 6–8

Engaging middle school students in complex science texts.

Elementary school

Get started by watching this class share what they’re figuring out with Amplify Science. >

In Grades K–3 we recommend the national grade level units of Amplify Science to provide students with the appropriate grade level literacy and background knowledge. Individual units are available to purchase.

When you’re ready:

  1. Find a summary of each unit below including each unit’s student role and anchor phenomenon.
  2. Download some helpful resources to support your review.
  3. Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
An illustration from Needs of Plants and Animals unit

Unit 1

Needs of Plants and Animals

Student role: Scientists

Phenomenon: There are no monarch caterpillars in the Mariposa Grove community garden ever since vegetables were planted.

An illustration from the Pushes and Pulls unit

Unit 2

Pushes and Pulls

Student role: Pinball engineers

Phenomenon: Pinball machines allow people to control the direction and strength of forces on a ball.

Silueta de una estructura de parque infantil contra un cielo azul con nubes y tres soles amarillos.

Unit 3

Sunlight and Weather

Student role: Weather scientists

Phenomenon: Students at one school are too cold during morning recess, while students at another are too hot during afternoon recess.

Illustration of sea turtles swimming among seaweed in the ocean, with a large shark in the background.

Unit 1

Animal and Plant Defenses

Student role: Marine scientists

Phenomenon: Spruce the Sea Turtle will soon be released back into the ocean, where she will survive despite predators.

An illustration from the Light and Sound unit

Unit 2

Light and Sound

Student role: Light and sound engineers

Phenomenon: A puppet show company uses light and sound to depict realistic scenes in puppet shows.

An illustration from the Spinning Earth unit

Unit 3

Spinning Earth

Student role: Sky scientists

Phenomenon: The sky looks different to Sai and his grandma when they talk on the phone at night.

An elephant standing next to a tree uses its trunk to pick a fruit from a branch while more fruit hangs above.

Unit 1

Plant and Animal Relationships

Student role: Plant scientists

Phenomenon: No new chalta trees are growing in the fictional Bengal Tiger Reserve in India.

A hand holds a red bean on a table, while a wooden stick spreads white glue and scattered beans. Also on the table are a white cup and a yellow pen.

Unit 2

Properties of Materials

Student role: Glue engineers

Phenomenon: Different glue recipes result in glues that have different properties.

Ilustración de una costa con acantilados, un edificio de centro recreativo con un techo rojo y un letrero, árboles de hoja perenne, una bandera azul y una playa de arena debajo.

Unit 3

Changing Landforms

Student role: Geologists

Phenomenon: The cliff on which Oceanside Recreation Center is situated appears to be receding.

Una ilustración de un tren de alta velocidad moderno y aerodinámico que viaja por una vía elevada con un paisaje verde de fondo.

Unit 1

Balancing Forces

Student role: Engineers

Phenomenon: The fictional town of Faraday is getting a new train. Unlike typical trains, this one floats, which is causing some concern among the town’s citizens.

An illustration from the Inheritance and Traits unit

Unit 2

Inheritance and Traits

Student role: Wildlife biologists

Phenomenon: An adopted wolf in Graystone National Park has some traits in common with one wolf pack in the park and other traits in common with a different pack.

An illustration from the Environments and Survival unit

Unit 3

Environments and Survival

Student role: Biomimicry engineers

Phenomenon: Over 10 years, a population of grove snails has changed. Populations with yellow shells have decreased, while those with banded shells have increased.

An illustration from the Weather and Climate unit

Unit 4

Weather and Climate

Student role: Meteorologists

Phenomenon: Three different islands, each a contender for becoming an orangutan reserve, experience different weather patterns.

An illustration from the Energy Conversions unit

Unit 1

Energy Conversions

Student role: System engineers

Phenomenon: The fictional town of Ergstown experiences frequent blackouts. Their electrical system seems to be failing.

An illustration from the Earth's Features unit

Unit 2

Earth’s Features

Student role: Geologists

Phenomenon: A mysterious fossil is discovered in a canyon within the fictional Desert Rocks National Park.

An illustration from the Modeling Matter unit

Unit 3

Modeling Matter

Student role: Food scientists

Phenomenon: Some ingredients dissolve in a salad dressing while others, like oil and vinegar, appear to separate.

An illustration from the Earth System unit

Unit 4

The Earth System

Student role: Water resource engineers

Phenomenon: East Ferris, a city on one side of the fictional Ferris Island, is experiencing a water shortage, while West Ferris is not.

An illustration from the Patterns of Earth and Sky unit

Unit 1

Patterns of Earth and Sky

Student role: Astronomers

Phenomenon: An ancient artifact depicts what we see in the sky at different times of the day, but it appears to be missing a piece.

An illustration from the Vision and Light unit

Unit 2

Vision and Light

Student role: Conservation biologists

Phenomenon: The population of Tokay geckos in a rain forest in the Philippines has decreased since the installation of new highway lights.

An illustration from the Waves, Energy, and Information unit

Unit 3

Waves, Energy, and Information

Student role: Marine scientists

Phenomenon: Mother dolphins in the fictional Blue Bay National Park communicate with their calves despite the distance between them.

An illustration from the Ecosystem Restoration unit

Unit 4

Ecosystem Restoration

Student role: Ecologists

Phenomenon: The jaguars, sloths, and cecropia trees in a reforested section of a Costa Rican rain forest are not growing or thriving.

Middle school

Get started by watching this class share what they’re figuring out with Amplify Science. >

When you’re ready:

  1. Find a summary of each unit below including each unit’s student role and anchor phenomenon.
  2. Download some helpful resources to support your review.
  3. Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
Illustration of a cross-section of Earth showing a volcano near the ocean. Trees, mountains, and clouds are visible above, with subterranean layers below.

CORE

Rock Transformations

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.

Ilustración que muestra las etapas de fusión de una paleta de naranja: entera, parcialmente derretida, más derretida y casi derretida por completo, con palitos de madera, sobre un fondo morado.

CORE

Phase Change

Domains: Physical Science, Earth and Space Science

Unit type: Core

Student role: Chemists

Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart.

Green geometric graphic featuring icons: a baby, thermometer, layers, medical alert, and a flame.

ENGINEERING INTERNSHIP

Phase Change Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Chemical engineering interns

Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature.

Illustration of a person in a red hat and fur-lined coat with eyes closed, surrounded by large orange circles on a dark background.

CORE

Thermal Energy

Domain: Physical Science

Unit type: Core

Student role: Thermal scientists

Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school.

Abstract art with vibrant colors featuring a yellow silhouette of a person holding a book against a background of geometric shapes, swirling patterns, and bold textures.

LAUNCH

Microbiome

Domain: Life Science

Unit type: Launch

Student role: Microbiological researchers

Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.

Abstract artwork of a person's side profile with geometric shapes and colorful patterns flowing from the head, holding a small sledgehammer. A vision chart is visible in the corner.

CORE

Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

Phenomenon: Elisa, a young patient, feels tired all the time.

Orange abstract background with hexagonal shapes featuring icons of a bar chart, plant, safety vest, test tube, peach, and stethoscope.

ENGINEERING INTERNSHIP

Metabolism Engineering Internship

Domains: Life Science, Engineering Design

Unit type: Engineering internship

Student role: Food engineers

Phenomenon: Designing health bars with different molecular compositions can effectively meet the metabolic needs of patients or rescue workers.

Two people climbing rocky terrain; illustrations show a hiking boot and a belt with gear.

LAUNCH

Harnessing Human Energy

Domains: Physical Science, Earth and Space Science, Engineering Design

Unit type: Launch

Student role: Energy scientists

Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.

A girl runs with a colorful kite displaying literacy skills; text reads "Amplify. Science of Reading: A Primer | Part One" on a grassy landscape background.

CODING SCIENCE INTERNSHIP

Coding Science Internship: Coral Restoration (Optional)

Domains: Life Science, Coding Science

Unit type: Coding Science Internship

Student role: Coding science interns

Phenomenon: Implementing a restoration project to improve the health of coral reef populations in Hawaii.

Abstract artwork depicting a bright sun with blue and orange swirling patterns next to green hills under a sky with shades of blue, orange, and red.

CORE

Ocean, Atmosphere, and Climate

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Climatologists

Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.

An illustration from the Weather Patterns unit

CORE

Weather Patterns

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Forensic meteorologists

Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.

An illustration from the Earth's Changing Climate unit

CORE

Earth’s Changing Climate

Domains: Earth and Space Science, Life Science

Unit type: Core

Student role: Climatologists

Phenomenon: The ice on Earth’s surface is melting.

Abstract geometric design in shades of blue and purple featuring a hexagon with icons of a building, wrench, molecules, sun, paint can, and screwdriver.

ENGINEERING INTERNSHIP

Earth’s Changing Climate Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Civil engineers

Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.

A city skyline at night with a prominent full moon, stars in the sky, and a bridge silhouette on the left.

CORE

Earth, Moon, and Sun

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Astronomers

Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.

An illustration from the Chemical Reactions unit

CORE

Chemical Reactions

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Forensic chemists

Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.

An illustration from the Light Waves unit

CORE

Light Waves

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Spectroscopists

Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.

An illustration of a whale with jellyfish and turtles from Amplify Science

CORE

Populations and Resources

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The size of the moon jelly population in Glacier Sea has increased.

Low-poly landscape with trees and mushrooms. A fox sniffs the ground, a rabbit sits nearby, and mountains and sun are in the background.

CORE

Matter and Energy in Ecosystems

Domains: Life Science, Earth and Space Science, Physical Science

Unit type: Core

Student role: Ecologists

Phenomenon: The biodome ecosystem has collapsed.

A girl runs with a colorful kite displaying literacy skills; text reads "Amplify. Science of Reading: A Primer | Part One" on a grassy landscape background.

CODING SCIENCE INTERNSHIP

Coding Science Internship: Coral Restoration (Optional)

Domains: Life Science, Coding Science

Unit type: Coding Science Internship

Student role: Coding science interns

Phenomenon: Implementing a restoration project to improve the health of coral reef populations in Hawaii.

A barren, rocky desert landscape with rover tracks leading to a distant vehicle on a hill under a hazy sky.

LAUNCH

Geology on Mars

Domain: Earth and Space Science

Unit type: Launch

Student role: Planetary geologists

Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable.

Two prehistoric reptiles with long snouts and tails are near the shore, one on land and one in water, with plants, rocks, and an island in the background.

CORE

Plate Motion

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.

Geometric design featuring a telescope, mountain, sound waves, and cosmic elements on a purple hexagonal background.

ENGINEERING INTERNSHIP

Plate Motion Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Patterns in earthquake data can be used to design an effective tsunami warning system.

Una nave espacial se acerca a una estación espacial modular con paneles solares extendidos en una ilustración ambientada en el espacio.

CORE

Force and Motion

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.

Green geometric background with a hexagonal emblem containing a parachute icon, ruler, bandage, and stacked layers on a gradient pattern.

ENGINEERING INTERNSHIP

Force and Motion Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents.

Illustration of a roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.

CORE

Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: During a test launch, a spacecraft traveled much faster than expected.

Imagen que muestra un gráfico de arañas de diferentes colores con patrones distintos de patas y cuerpo, incluidas variaciones de color marrón, amarillo y azul. El fondo es una superficie oscura y texturizada.

CORE

Traits and Reproduction

Domain: Life Science

Unit type: Core

Student role: Biomedical students

Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.

Four low-poly dinosaurs with missing body sections are standing in a row; one is yellow, and the others are green. They have purple spikes and red patches on their bodies.

CORE

Natural Selection

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The newt population in Oregon State Park has become more poisonous over time.

Red geometric background with icons including a mosquito, DNA strand, bar chart, and world map inside a hexagon.

ENGINEERING INTERNSHIP

Natural Selection Engineering Internship

Domains: Life Science, Earth and Space Science

Student role: Clinical engineers

Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development while helping malaria patients.

Illustration of a cross-section of Earth showing a volcano near the ocean. Trees, mountains, and clouds are visible above, with subterranean layers below.

CORE

Rock Transformations (optional)

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.

Two giant tortoises with long necks stand near water; one tortoise feeds on leaves from a tree while the other is near dense vegetation.

CORE

Evolutionary History

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Paleontologists

Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.

A girl runs with a colorful kite displaying literacy skills; text reads "Amplify. Science of Reading: A Primer | Part One" on a grassy landscape background.

CODING SCIENCE INTERNSHIP

Coding Science Internship: Coral Restoration (Optional)

Domains: Life Science, Coding Science

Unit type: Coding Science Internship

Student role: Coding science interns

Phenomenon: Implementing a restoration project to improve the health of coral reef populations in Hawaii.

Resources to support your review

Select a topic below to explore helpful resources with more information about Amplify Science, the program’s development, and pedagogy.

Two young girls, one with braided hair and the other with blonde hair, smiling and looking at a laptop screen in a classroom.
Four-step educational infographic depicting problem-solving process: engaging with real-world problems, exploring multiple sources, constructing explanations, and applying knowledge to new problems.
Integrated 5e model

Learn how the 5E elements are integrated throughout every unit.

Two children engaged in an animated conversation while sitting at a school desk with laptops and books.
Phenomena and storylines (K–5)

Read more about the real-world phenomena featured in each unit.

Children doing schoolwork at home
Phenomena and storylines (6–8)

Read more about the real-world phenomena featured in each unit.

A screenshot from a video titled "amplify science in action: a week in the..." featuring a smiling woman sitting in a classroom setting.
[Video] Planning in action (K–5)

Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.

A woman smiling and gesturing while speaking, seated in a classroom with computers and educational materials around her, with a paused video screen featuring text about "amplify science.
[Video] Planning in action (6–8)

Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.

Two young children sit at a classroom table, one smiling broadly, during an Amplify Science educational activity.
[Video] Hands-on in action (K–5)

Watch Amplify Science students conduct hands-on investigations.

A student in a classroom uses a dropper to add liquid to clear plastic cups during a science experiment. Other students and lab materials are visible in the background.
[Video] Hands-on in action (6–8)

Watch Amplify Science students conduct hands-on investigations.

Two young girls sit side by side at a desk, looking at a laptop screen and working together in a classroom setting.
[Video] Simulations and modeling tools (K–5)

Watch how students investigate phenomena with the help of digital tools.

Two students sit at a table in a classroom, working on laptops and talking, with other students visible in the background.
[Video] Simulations and modeling tools (6–8)

Watch how students investigate phenomena with the help of digital tools.

A young girl wearing safety goggles stretches a gooey substance from a cup in a kitchen or classroom setting.
Summary of Investigations (K–5) coming soon

Explore the types of investigations that students conduct.

A young person wearing gloves looks through a microscope at a table with laboratory supplies, including bottles, slides, and a tray, against a plain blue background.
Summary of Investigations (6–8) coming soon

Explore the types of investigations that students conduct.

A young boy and girl sitting in a classroom, reading a book together with focused expressions.
Program structure and components (K–5)

Take a closer look at how the program is organized.

Teacher assisting two students working on laptops in a classroom; other students are in the background.
Program structure and components (6–8)

Take a closer look at how the program is organized.

Digital collage of various devices displaying educational content about earth’s energy system, including graphs and text explanations.
[Video] New! Classroom Slides

Learn more about our customizable PowerPoints for every lesson.

A laptop screen displays a writing lesson with prompts and a student's response in Amplify Classwork. The student's answer discusses dangers related to a specific scenario involving a sick child.
Classwork (6–8)

A new, intuitive approach to reviewing student work online.

An adult sits on a couch using a laptop while a child next to them does homework in a notebook.
Remote and hybrid learning guide

Amplify is here to help! Amplify Science will soon feature product enhancements and new resources that will help manage the new landscape of back-to-school 2020.

Educational presentation slides from grade 8 amplify science materials spanish kit, displaying various science topics like geology and biology.
Spanish-language supports

Learn more about the Spanish-language supports in Amplify Science.

students collaborating and using laptops
English Learners

Learn how we make learning accessible for English learners.

Amplify Science California supports you every step of the way on your journey to the California NGSS.
Students needing support

Learn how we make learning accessible for students who need more support.

Teacher using a tablet while conducting an mCLASS reading intervention with three young students seated around a table in a classroom.
Students ready for more

Learn how we make learning more rigorous for students ready for a challenge.

Two boys work together on a laptop while a woman—likely one of their middle school teachers—sits beside them, observing and smiling in a classroom setting.
Accessibility

Read more about text design and accessibility, including embedded Read-Aloud audio.

A teacher discusses educational content in front of a whiteboard while students in the classroom raise their hands eagerly.
Approach to assessment (K–5)

Learn about our embedded formative and summative assessments.

Two students sit at desks writing in notebooks and using laptops in a classroom setting.
Approach to assessment (6–8)

Learn about our embedded formative and summative assessments.

A teacher and a young student looking at a laptop together in a colorful classroom decorated with children's artwork.
NGSS Benchmark assessments

Learn more about the Next Generation Science Standards Benchmark assessments created by Amplify.

A young girl in a classroom gives a thumbs up with both hands, smiling broadly, while other students look on in the background.
NGSS Benchmark assessments

NGSS alignment by performance expectation.

Two students in a classroom, one looking at the camera and the other listening intently, with a whiteboard displaying educational content in the background.
NGSS alignment (6–8)

NGSS alignment by performance expectation.

Ready to explore with digital access and physical samples?

Start your digital review and request physical samples with these three easy steps.

  1. Note these Ohio specific login credentials for your digital access.
    Username: t.ohscience@tryamplify.net
    Password: AmplifyNumber1
  2. Click Review now.
  3. Complete the form and select Log in with Amplify to input the Ohio specific login.
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Contact an Amplify representative

For any questions, fill out the form to the right and a member of our sales team will reach out to you soon.

Katie Cannon
Senior Account Executive

Casie Rayes
Account executive

Matt Paupore
Senior Account Executive

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Featured blog post

Celebrating Keppel Union: A Science of Reading Star Award winner

Find out how this California district used data, teacher partnership, and evidence-based instruction to strengthen literacy across five schools.

By Amplify Staff | June 16, 2026

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S5.E6. Why skepticism is essential to the Science of Reading, with Dr. Claude Goldenberg

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A closer look at grades 3–5

Amplify Science is based on the latest research on teaching and learning and helps teachers deliver age-appropriate, high-quality, literacy-rich instruction that enables students to take on the roles of scientists and engineers to solve real-world phenomena every day.

In the 3–5 classroom, this looks like students:

  • Collecting evidence from a variety of sources.
  • Making sense of evidence in a variety of ways.
  • Formulating convincing scientific arguments.
Collage of four educational activities: 1) drying a paper model with a hairdryer, 2) two girls observing a science experiment, 3) children making a mixture, 4) adult hand watering a plant in a clear container.
Graphic showing a research process with four steps: spark intrigue with a real-world problem, explore evidence, explain and elaborate, and evaluate claims, connected in a cycle with arrows.

Program structure

Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

It’s this proven program structure and lesson design that enables Amplify Science California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 3–5 program to address 100% of the California NGSS in just 88 days.

Scope and sequence

Every year of our grades 3–5 sequence consists of 4 units and 88 lessons. Said another way, each unit contains 20 lessons plus two dedicated assessment days (a Pre-Unit Assessment and End-of-Unit Assessment).

Lessons for grades 3–5 are written to last a minimum of 60 minutes, though teachers can expand or contract the timing to meet their needs.

Educational curriculum chart showcasing a progression of amplify science lessons from kindergarten to grade 5, categorized by grade and subject areas like plants, animals, weather, and energy.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also emphasizing a particular science and engineering practice.

In grades 3–5:

  • One unit emphasizes the practice of investigation.
  • One unit emphasizes the practice of modeling.
  • One unit emphasizes the practice of engineering design.
  • One unit emphasizes the practice of argumentation.
Investigation Units

Investigation units focus on the process of strategically developing investigations and gathering data to answer questions. Students are first asked to consider questions about what happens in the natural world and why, and are then involved in designing and conducting investigations that produce data to help answer those questions.

Modeling Units

Modeling units provide extra support to students engaging in the practice of modeling. Students use physical models, investigate with computer models, and create their own diagrams to help them visualize what might be happening on the nanoscale.

Engineering Design Units

Engineering design units provide opportunities for students to solve complex problems by applying science principles to the design of functional solutions, and iteratively testing those solutions to determine how well they meet preset criteria.

Argumentation units

Argumentation units provide students with regular opportunities to explore and discuss available evidence, time and support to consider how evidence may be leveraged in support of claims, and independence that increases as they mount written arguments in support of their claims.

Units at a glance

Una ilustración de un tren de alta velocidad moderno y aerodinámico que viaja por una vía elevada con un paisaje verde de fondo.
Balancing Forces

Domain: Physical Science

Unit type: Modeling

Student role: Engineers

Phenomenon: The town of Faraday is getting a new train that floats above its tracks.  

Download unit guide

Download lesson planner

An illustration from the Inheritance and Traits unit
Inheritance and Traits

Domain: Life Science

Unit type: Investigation

Student role: Wildlife biologists

Phenomenon: An adopted wolf in Graystone National Park (“Wolf 44”) has some traits that appear similar to one wolf pack in the park and other traits that appear to be similar to a different wolf pack. 

Download unit guide

Download lesson planner

An illustration from the Environments and Survival unit
Environments and Survival

Domains: Life Science, Engineering Design

Unit type: Engineering design

Student role: Biomimicry engineers

Phenomenon: Over the last 10 years, a population of grove snails has changed: The number of grove snails with yellow shells has decreased, while the number of snails with banded shells has increased.  

Download unit guide

Download lesson planner

An illustration from the Weather and Climate unit
Weather and Climate

Domains: Earth and Space Science, Engineering Design

Unit type: Argumentation

Student role: Meteorologists

Phenomenon: Three different islands, each a contender for becoming an Orangutan reserve, experience different weather patterns.  

Download unit guide

Download lesson planner

An illustration from the Energy Conversions unit
Energy Conversions

Domains: Physical Science, Earth and Space Science, Engineering Design

Unit type: Engineering design

Student role: System engineers

Phenomenon: The fictional town of Ergstown experiences frequent blackouts.  

Download unit guide

Download lesson planner

An illustration from the Vision and Light unit
Vision and Light

Domain: Physical Science, Life Science, Engineering Design

Unit type: Investigation

Student role: Conservation biologists

Phenomenon: The population of Tokay geckos in a rain forest in the Philippines has decreased since the installation of new highway lights.  

Download unit guide

Download lesson planner

An illustration from the Earth's Features unit
Earth’s Features

Domain: Earth and Space Science

Unit type: Argumentation

Student role: Geologists

Phenomenon: A mysterious fossil is discovered in a canyon within the fictional Desert Rocks National Park.  

Download unit guide

Download lesson planner

An illustration from the Waves, Energy, and Information unit
Waves, Energy, and Information

Domains: Physical Science, Life Science, Earth and Space Science, Engineering Design

Unit type: Modeling

Student role: Marine scientists

Phenomenon: Mother dolphins in the fictional Blue Bay National Park seem to be communicating with their calves when they are separated at a distance underwater.

Download unit guide

Download lesson planner

An illustration from the Patterns of Earth and Sky unit
Patterns of Earth and Sky

Domains: Physical Science, Earth and Space Science

Unit type: Investigation

Student role: Astronomers

Phenomenon: An ancient artifact depicts what we see in the sky at different times — the sun during the daytime and different stars during the nighttime — but it is missing a piece.  

Download unit guide

Download lesson planner

An illustration from the Modeling Matter unit
Modeling Matter

Domain: Physical Science

Unit type: Modeling

Student role: Food scientists

Phenomenon: Chromatography is a process for separating mixtures. Some solids dissolve in a salad dressing while others do not. Oil and vinegar appear to separate when mixed in a salad dressing.  

Download unit guide

Download lesson planner

An illustration from the Earth System unit
The Earth System

Domains: Earth and Space Science, Physical Science, Engineering Design

Unit type: Engineering Design

Student role: Water resource engineers

Phenomenon: East Ferris, a city on one side of the fictional Ferris Island, is experiencing a water shortage, while West Ferris is not.  

Download unit guide

Download lesson planner

An illustration from the Ecosystem Restoration unit
Ecosystem Restoration

Domains:Physical Science, Life Science, Earth and Space Science, Engineering Design

Unit type: Argumentation

Student role: Ecologists

Phenomenon: The jaguars, sloths, and cecropia trees in a reforested section of a Costa Rican rain forest are not growing and thriving.  

Download unit guide

Download lesson planner

Resources

Four students around a table engaged in a group science project in a classroom.

Pilot support brochure for 3–5

Unit phenomena for K–5

Take a closer look at the elementary unit phenomena featured in each grade level.

Educational material for grade 1, featuring a section about aquariums with an image of children observing jellyfish, and an introduction to forest habitats.

Classroom Slides for K–5

Classrooms Slides for elementary are now available! These customizable PowerPoin…

Two children engaged in an animated conversation while sitting at a school desk with laptops and books.

What’s so phenomenal about phenomena?

Learn actionable strategies that will help you implement 3-D teaching and learni…

A young boy and girl sitting in a classroom, reading a book together with focused expressions.

Literacy-rich instruction in K–5

Scientists don’t just get messy. They read and write with purpose too. Exp…

Student Books in K–5

Read a summary of each of our award-winning K–5 student books.

Two children in safety goggles conducting a science experiment with liquids in a classroom.

Investigations for K–5

Explore the types of investigations that take place in elementary classrooms.

Earth's Features digital simulation

Sims for 4–8

Pilot support brochure for 3–5

Four-step educational infographic depicting problem-solving process: engaging with real-world problems, exploring multiple sources, constructing explanations, and applying knowledge to new problems.

The 5E model in K–8

Learn how the 5E elements are woven throughout each and every unit.

Two middle school girls conduct a science experiment

The CER model in K-5

Learn how we integrate the Science and Engineering Practices (SEPs) into daily i…

A science teacher stands at the front of a classroom speaking, while several students sitting at desks raise their hands to participate. A lesson is displayed on the screen behind her.

Approaches to assessment in K–5

Learn about our embedded assessments.

Science activity kit featuring books "Earthworms Underground" and "What's Going On with the Weather?", balloons, plant seeds, propellers, and other educational materials.

Program component list for TK–5

Explore the components that come with each unit.

Illustration of diverse activities: a girl with arms outstretched among birds, an ancient temple, a child reading, and sketches and letters on a sandy layer.

Amplify CKLA 2nd Edition Pilot Packs

Pilot educator,

This is the beginning of the Amplify Core Knowledge Language Arts (CKLA) 2nd Edition journey in your classroom! Making this important, evidence-based shift shows your commitment and dedication to your students. We truly appreciate the work you’re doing and are here to help you along the way.

We know it can be overwhelming to start a new curriculum, but we’re here to help! Within this site, you’ll find resources to help you get started before your implementation training, including a materials checklist, unit and domain summaries, support videos, and more! These tools will support your 6–12 weeks of core literacy instruction with Amplify CKLA. We hope this site is helpful in getting you started with your pilot.

Thank you for all you do,

—The Amplify CKLA team

Get started

To get started with your new pilot of Amplify CKLA, you’ll first want to review the following:

You may also find these documents helpful as you begin your pilot:

CKLA_PilotPackMicrosite_MaterialsModule_Hero_112822-01

Pilot Pack components checklist

Below you’ll find the Amplify CKLA Pilot Pack components you should have received in your shipment, outlined by grade level and teacher/student materials. Please click your grade-level teacher materials and student materials to review the list and ensure that you received all of the materials.

An orange workbook cover featuring a ladybug illustration, part of "Amplify Core Knowledge Language Arts." The text "Skills 5" is shown at the bottom.

Teacher materials

Skills Unit 5 Teacher Guide

Orange book cover for "Skills 6" from Amplify Core Knowledge Language Arts, featuring outlined hands and items like hats and pants. Subtext: Teacher Guide, TK Masterscripts.

Teacher materials

Skills Unit 6 Teacher Guide

Orange language arts workbook cover with a white shower sketch, water drops, and the word "Skills 7" at the bottom. Drawings include fish, bird, and words like "bath," "th," "finch," and "splash.

Teacher materials

Skills Unit 7 Teacher Guide

Book cover titled "Ox and Man" shows people running with an ox on a green hillside.

Teacher materials

Skills Unit 5 Big Book: Ox and Man

Teacher materials

Skills Unit 6 Big Book: Kit

Teacher materials

Skills Unit 7 Big Book: Seth

Kindergarten_small-letter-cards

Teacher materials

Skills Small Letter Card Set

Teacher materials

Skills Large Letter Cards

Teacher materials

Knowledge Domain 2 Teacher Guide: The 5 Senses

Teacher materials

Knowledge Domain 3 Teacher Guide: Stories

Colorful illustration of a lush hillside with a variety of plants and a house in the background, titled "knowledge 4 plants" for a kindergarten workbook.

Teacher materials

Knowledge Domain 4 Teacher Guide: Plants

Teacher materials

Knowledge Domain 2 Image Cards: The 5 Senses

Cover of "knowledge 3" kindergarten image cards featuring a colorful illustration of children and animals engaging with storybook characters in a fantasy setting.

Teacher materials

Knowledge Domain 3 Image Cards: Stories

Illustration on a book cover showing various plants, a garden, and a red house, under a bright sun, titled "knowledge 4 - plants" for kindergarten level.

Teacher materials

Knowledge Domain 4 Image Cards: Plants

Illustration of children exploring giant sensory organs in a vibrant landscape, representing the five senses in a playful educational setting.

Teacher materials

Knowledge Domain 2 Flip Book: The 5 Senses

Teacher materials

Knowledge Domain 3 Flip Book: Stories

Illustration on a book cover showing various plants, a garden, and a red house, under a bright sun, titled "knowledge 4 - plants" for kindergarten level.

Teacher materials

Knowledge Domain 4 Flip Book: Plants

Back cover of an amplify core knowledge language arts pilot sample card deck, with qr code and isbn, featuring education-themed illustrations.

Teacher materials

Sound Cards Sampler

Educational poster titled "sound posters" for kindergarten, featuring various illustrations like a boat, globe, and animals on a red background with a qr code on the bottom right.

Teacher materials

Sound Posters Sampler

Student materials

Skills Unit 6 Reader: Kit

Student materials

Skills Unit 7 Reader: Seth

Student materials

Skills Unit 5 Activity Book

Student materials

Skills Unit 6 Activity Book

Student materials

Skills Unit 7 Activity Book

Student materials

Chaining Folder

Book cover titled "look at the", marked as a "pilot sample" with educational doodles on a red background, labeled "picture reader" for "kindergarten" skills.

Student materials

Picture Reader Sampler

Educational book cover titled "amplify core knowledge language arts" featuring colorful illustrations of animals, fruits, and plants across four seasonal themes.

Student materials

Knowledge Domains 2, 3, and 4 Sampler

Teacher materials

Skills Unit 2 Teacher Guide

Teacher materials

Skills Unit 3 Teacher Guide

Teacher materials

Skills Unit 4 Teacher Guide

Teacher materials

Skills Unit 2 Big Book: Gran

Teacher materials

Skills Unit 3 Big Book: Fables

Teacher materials

Skills Vowel Code Flip Book

Teacher materials

Skills Large Letter Cards

A grade 1 spelling cards booklet titled "core knowledge language arts" from the center for early reading-amplify, featuring educational symbols like a pencil and sun on a orange cover.

Teacher materials

Skills Spelling Cards

Teacher materials

Knowledge Domain 2 Teacher Guide: The Human Body

Teacher materials

Knowledge Domain 3 Teacher Guide: Different Lands, Similar Stories

Teacher materials

Knowledge Domain 5 Teacher Guide: Early American Civilizations

Teacher materials

Knowledge Domain 2 Image Cards: The Human Body

Teacher materials

Knowledge Domain 3 Image Cards: Different Lands, Similar Stories

Teacher materials

Knowledge Domain 5 Image Cards: Early American Civilizations

Teacher materials

Knowledge Domain 2 Flip Book: The Human Body

Teacher materials

Knowledge Domain 3 Flip Book: Different Lands, Similar Stories

Teacher materials

Knowledge Domain 5 Flip Book: Early American Civilizations

Illustration of a grandmother embracing two children, with a house labeled "gran" in the background, surrounded by foliage.

Student materials

Skills Unit 2 Reader: Gran

Student materials

Skills Unit 3 Reader: Fables

Illustration of various animals, including a puffin, deer, fox, otter, and others, on a green background with the title "the green fern zoo.

Student materials

Skills Unit 4 Reader: The Green Fern Zoo

Student materials

Skills Unit 2 Activity Book

Student materials

Skills Unit 3 Activity Book

Student materials

Skills Unit 4 Activity Book

Student materials

Skills Individual Code Chart

Illustration of a colorful educational book cover titled "amplify core knowledge language arts" for grade 1, featuring diverse thematic circles like farming, space, and cultures.

Student materials

Knowledge Domains 2, 3, and 5 Sampler

Green book cover titled "Skills 2," showing a white outline drawing of a mole above the word "mole." Background features doodles and words like "bite" and "bat.

Teacher materials

Skills Unit 2 Teacher Guide

Bright green cover of a textbook titled "Skills 3," featuring a graduation cap illustration. The text mentions "Core Knowledge Language Arts" and "Grade 2 Teacher Guide.

Teacher materials

Skills Unit 3 Teacher Guide

Green educational worksheet displaying a large letter "V" surrounded by various illustrations representing words starting with "V," such as a volcano and violin.

Teacher materials

Skills Vowel Code Flip Book

A green educational workbook cover titled "Amplify Core Knowledge Language Arts," featuring a large white letter 'C' and doodles of animals and objects in the background.

Teacher materials

Skills Consonant Code Flip Book

Cover of "Core Knowledge Language Arts: Spelling Cards, Grade 2" featuring symbols like an eye, lightbulb, key, paw, and letters on a green background.

Teacher materials

Skills Spelling Cards

Cover illustration of a book titled "Knowledge 1: Fairy Tales and Tall Tales." Shows a giant lumberjack, castle, fish, and a person facing the scene, surrounded by trees and a river.

Teacher materials

Knowledge Domain 1 Teacher Guide: Fairy Tales and Tall Tales

Cover of a book titled "Knowledge 4, Greek Myths," showing illustrations of mythical figures, creatures, and landscapes under a sunny sky.

Teacher materials

Knowledge Domain 4 Teacher Guide: Greek Myths

Illustrated book cover showing a garden scene with butterflies, insects, flowers, and greenery under a blue sky. Title reads "Knowledge 8: Insects" from the Core Knowledge Language Arts series.

Teacher materials

Knowledge Domain 8 Teacher Guide: Insects

Illustrated book cover featuring Greek mythological characters, including a lion-headed figure and an archer, with a landscape of mythical creatures and structures in the background.

Teacher materials

Knowledge Domain 4 Image Cards: Greek Myths

Colorful illustration of a natural scene with insects, flowers, and a pond on a book cover titled "Knowledge 8 Insects" for Grade 2 language arts.

Teacher materials

Knowledge Domain 8 Image Cards: Insects

Illustration of a giant lumberjack with an axe, a cow, and people on a castle wall, in a colorful storybook design. Titled "Knowledge 1: Fairy Tales and Tall Tales.

Teacher materials

Knowledge Domain 1 Flip Book: Fairy Tales and Tall Tales

Illustration of Greek mythology featuring Artemis aiming a bow, a Minotaur in a labyrinth, and mythical symbols. Labeled "Knowledge 4 Greek Myths" for a language arts program.

Teacher materials

Knowledge Domain 4 Flip Book: Greek Myths

Colorful illustration of a garden with flowers, a beehive, butterflies, bees, and a beekeeper by a pond. The book is titled "Knowledge 8: Insects" for Grade 2 Language Arts.

Teacher materials

Knowledge Domain 4 Image Cards: Greek Myths

Illustrated book cover titled "Bedtime Tales" showing a man sitting on a bed with two children, one boy and one girl, leaning against him. Colorful patterns are in the background.

Student materials

Skills Unit 2 Reader: Bedtime Tales

Children play jump rope on a basketball court near a park. The words "Kids Excel" are on the image.

Student materials

Skills Unit 3 Reader: Kids Excel

A workbook cover featuring a stylized illustration of a mole, labeled "mole" and "oe." It includes sketches of a bed, clock, and letters. Title: "Skills 2 Activity Book, Grade 2.

Student materials

Skills Unit 2 Activity Book

Image of a green activity book cover titled "Skills 3" with a graduation cap illustration and various educational doodles in the background.

Teacher materials

Skills Unit 3 Activity Book

A chart featuring various hand-drawn doodles, including a sailboat, dog, hat, bell, and cooking pot, used for language arts.

Student materials

Skills Individual Code Chart

Cover of a Grade 2 activity book titled "Knowledge" by Amplify, featuring colorful illustrations of myths and folktales, including "Kite" and "Why the Sky Is Far Away.

Student materials

Knowledge Domains 1, 4, and 8 Sampler

Illustrated book cover titled "Unit 2 Animal Classification," featuring a leopard, frog, turtle, crane, rocks, and foliage under a partly cloudy sky.

Teacher materials

Unit 2 Teacher Guide: Animal Classification

Cover of a textbook titled "Unit 5: Light and Sound" featuring an illustration of a bouncing cow and various objects like a tree and lemon slices on a table.

Teacher materials

Unit 5 Teacher Guide: Light and Sound

Book cover titled "Unit 3: Native American Regions and Cultures" with an illustration of a desert landscape and sky designs.

Teacher materials

Unit 8 Teacher Guide: Native Americans: Regions and Culture

Illustrated cover depicting a dog chasing a bee under a tree with a sun and lens flare in the background. Text reads "Unit 5, Light and Sound, Image Cards, Grade 3" with Amplify logo.

Teacher materials

Unit 5 Image Cards: Light and Sound

Book cover with a stylized illustration of a person in a rocky landscape under a cloudy sky. Text reads: "Unit 8 Native Americans: Regions and Cultures, Image Cards, Grade 2.

Teacher materials

Unit 8 Image Cards: Native Americans: Regions and Cultures

Colorful illustration of various animals including a jaguar, heron, frog, turtle, and fish in a natural setting, featured on the cover of an educational material titled "Rattenborough’s Guide to Animals.

Student materials

Unit 2 Reader: Rattenborough’s Guide to Animals

Cover of "Adventures in Light and Sound," Unit 5 Reader by Amplify, showing illustrations of a dog jumping near a tree, with abstract shapes and colors in the background.

Student materials

Unit 5 Reader: Adventures in Light and Sound

Book cover featuring a landscape painting of cliffs under a cloudy sky, labeled "Unit 8: Native American Stories," with "Amplify Core Knowledge Language Arts" at the top.

Student materials

Unit 8 Reader: Native American Stories

Illustrated book cover featuring a leopard, frog, turtle, crane, and jewel-like objects in a natural setting. Title reads "Unit 2 Animal Classification, Grade 3.

Teacher materials

Unit 2 Activity Book: Animal Classification

Illustrated cover of an educational book titled "Unit 5: Light and Sound" for Grade 1, depicting a tree, playing squirrels, a sun, and large glasses on a white table.

Student materials

Unit 5 Activity Book: Light and Sound

Cover of a book titled "Unit 8: Native Americans: Regions and Cultures," featuring an illustration of a person walking through a desert landscape.

Student materials

Unit 8 Activity Book: Native Americans: Regions and Cultures

Cover of a Unit 3 Poetry workbook featuring gold illustrations of mythical creatures and designs on a brown background.

Teacher materials

Unit 3 Teacher Guide: Poetry

A geology textbook cover with an image of wavy, layered rock formations. The text on the cover reads "Unit 5 Geology.

Teacher materials

Unit 5 Teacher Guide: Geology

Cover of "Unit 7: American Revolution" shows people in colonial attire ringing a large bell indoors.

Teacher materials

Unit 7 Teacher Guide: American Revolution

A journal cover titled "Poet's Journal" for Grade 6, Unit 2. The design includes brown illustrations of a sun, dinosaur, leaves, and other decorative elements on a tan background.

Student materials

Unit 3 Poet’s Journal

Textbook cover titled "Unit 5: Geology: The Changing Earth" featuring a photo of wave-like rock formations with layered patterns.

Student materials

Unit 5 Reader: Geology: The Changing Earth

Illustration of colonial people and a large bell, with text: "Unit 7 American Revolution: The Road to Independence.

Student materials

Unit 7 Reader: American Revolution: The Road to Independence

Textbook cover titled "Unit 5: Geology" featuring a photo of layered rock formations with swirling patterns and vivid colors.

Student materials

Unit 5 Activity Book: Geology

Illustration of people ringing a large bell in a historical setting, with men, women, and a child present. Text on the cover reads "Unit 7 American Revolution" for Grade 4.

Student materials

Unit 7 Activity Book: American Revolution

Textbook cover titled "Unit 2: Early American Civilizations" with an illustrated figure in red, white, and green, adorned with feathers and holding a staff.

Teacher materials

Unit 2 Teacher Guide: Early American Civilizations

Book cover featuring illustrations of an umbrella, microscope, compass, bird, and stars. Label indicates Unit 3 on poetry for 5th-grade language arts.

Teacher materials

Unit 3 Teacher Guide: Poetry

Cover of a workbook titled "Adventures of Don Quixote," featuring an illustration of Don Quixote and Sancho Panza on horseback under a crescent moon.

Teacher materials

Unit 4 Teacher Guide: The Adventures of Don Quixote

Textbook cover titled "Unit 2: Early American Civilizations: Maya, Aztec, and Inca," featuring colorful illustration of a figure in traditional attire.

Student materials

Unit 2 Reader: Early American Civilization

Cover of "Poet's Journal," Grade 6, Unit 5. Features illustrations of an umbrella, crow, book, key, and a telescope against a brown background. Amplify Core Knowledge Language Arts at top.

Student materials

Unit 3 Poet’s Journal

Cover of "Adventures of Don Quixote" by Argentina Palacios, Dover Children's Thrift Classics. It features an illustration of Don Quixote and his horse near windmills.

Student materials

Unit 4 Reader: The Adventures of Don Quixote (trade book)

Cover of a Grade 5 activity book titled "Unit 2: Early American Civilizations" features a colorful illustration of an Aztec-style figure.

Student materials

Unit 2 Activity Book: Early American Civilization

Cover illustration of "Adventures of Don Quixote" from Unit 4, featuring Don Quixote on horseback with a spear, under a crescent moon, in a vintage purple-toned style.

Student materials

Unit 4 Activity Book: The Adventures of Don Quixote

Access the Amplify CKLA digital experience

You will receive your teacher demo account login information from your sales representative.

Contact us

Contact your account executive to sign up for implementation training.

Welcome, Central Kitsap, to Amplify Desmos Math!

Amplify Desmos Math K-5 thoughtfully combines conceptual understanding, procedural fluency, and application. Each lesson is designed to tell a story by posing problems that invite a variety of approaches before guiding students to synthesize their understanding of the learning goals.

Scroll to learn more about the program and explore sample materials.

About the program

We believe in math that motivates. Our structured approach to problem-based learning builds on students’ curiosity to develop lasting grade-level understandings for all students. 

The program motivates students with interesting problems they are eager to solve. Teachers can spend more time where it’s most impactful: creating a collaborative classroom of learners.

A powerful suite of math resources

Amplify Desmos Math combines the best of problem-based lessons, intervention, personalized practice, and assessments into a coherent and engaging experience for both students and teachers.  Feel free to explore our grade-level ancillary samplers to learn more about assessment and reporting, intervention, and differentiation:

Grade K Ancillary Sampler

Grade 1 Ancillary Sampler

Grade 2 Ancillary Sampler

Grade 3 Ancillary Sampler

Grade 4 Ancillary Sampler

Grade 5 Ancillary Sampler

A digital interface displays a math screener report on the left and a math problem involving division, alongside a visual representation of students lined up on the right, integrating rich math resources from Amplify Desmos Math.

Assessment

mCLASS® Assessments, along with daily formative checks, measure not only what students know, but how they think. The asset-based assessment system provides teachers with targeted, actionable insights, linked to core and intervention resources. Visit our mClass Math site to learn more.

Two side-by-side math activities for children: on the left, a caterpillar-themed block challenge, and on the right, a worksheet for finding pairs that sum to 10. These exercises are fantastic ways to amplify children's engagement with math concepts.

Core instruction

Amplify Desmos Math lessons pair problems students are eager to solve with clear instructional moves for teachers. With low-floor, high-ceiling tasks every student can actively participate and be a part of the math community. Unit- and lesson-level core assessments give teachers data at their fingertips to guide and differentiate instruction.

A math lesson screen shows a toy sinking 5 meters into a pool. A textbox asks how many centimeters that is, with space for an answer and a "Try again" button. An avatar explains the question, using Desmos math tools to amplify understanding.

Differentiation

Boost Personalized Learning activities help students access grade-level math through engaging, independent digital practice. Responsive Feedback adjusts to students’ work, providing item-level adaptivity to further support their learning and offer personalized differentiation. Visit our Boost Math site to learn more. 

Two pages from a New York math textbook on determining coordinates after a rotation. Includes sections on modeled review, guided practice, and teacher's notes, with diagrams and examples that amplify the learning experience.

Embedded intervention

Integrated resources like Mini-Lessons, Fluency Practice, and Math Adventures provide targeted intervention on a specific concept or skill connected to the daily lesson. Extensions are also available to stretch students’ understanding.

Multilingual Learners

To support multilingual/English learners, Amplify Desmos Math incorporates research-based Math Language Routines (MLRs) by providing language modality strategies like sentence frames where appropriate, both in the teacher language provided for each task and in the differentiation support section found throughout the program. For further information on math language development, please see pg. 82 of the Amplify Desmos Math Program Guide.

A male teacher in a red shirt explaining a lesson to a focused young female student in a classroom. other students are in the background.

Review Resources

To support your review of Amplify Desmos Math here are links to important K-5 review resources:

Two women in an office setting are smiling while looking at a tablet. Various educational icons surround the image.

K-5 sample materials

Click the links in the drop-down sections below to explore sample materials from each grade.  To see sample student responses, please click on the Teacher Edition pages and scroll to “Sample Student Work” (first one is about 30 pages in) or click on Intervention and Extension resources.   

For helpful navigation tips and more program information, download the Amplify Desmos Math Program Guide.

You can also watch a product expert walk through a lesson and the available program components.

Digital educational material showing an activity named "Hamster Homes" involving tube length and platform heights for a hamster cage. Includes a diagram with platforms measuring 9 inches.
Screenshot of a kindergarten curriculum outline featuring units like Math in Our World, Numbers 1-10, Positions and Shapes, Understanding Addition, Making 10, and Shapes All Around Us. This comprehensive program utilizes New York Math standards to build foundational skills.
Program structure

Get to know the content and structure of Kindergarten Amplify Desmos Math.

Cover of Amplify Desmos Math Grade K Teacher Edition featuring three children playing with math-related objects and a group of rabbits sitting nearby, aligning with the engaging curriculum seen in New York math classrooms.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Counting and Comparing Objects.

Educational activity screen displaying a blue backpack with icons, dot groups on the left, and a grid background. Prompt reads, "Look inside the backpack. Then choose the group with the same number of dots." A great tool to amplify Desmos math learning in line with New York math standards.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

Cover of "Amplify Desmos Math: Student Edition Kindergarten," featuring an illustration of three children playing with math-related toys. A group of small white animals, possibly hamsters, play nearby. The scene brilliantly captures the joy of New York math exploration for young learners.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of "Amplify Desmos Math Grade K Centers Resources" featuring a large, stylized red and pink "C" on a light pink background with simple geometric designs. This distinctive cover complements New York math curriculums with its engaging visual elements.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math: Grade K." The title is displayed with a geometric "I" illustration in the center. Subtitle reads "Intervention and Extension Resources" on a pink and white background, ideal for New York math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

A digital activity screen, crafted in the style of Amplify Desmos Math, shows two paths with different quantities of mushrooms. The user is prompted to choose the path with more mushrooms. A bear is on the left side of the screen.

In this lesson, students apply their understanding of how to compare groups of images as they determine which group has more or fewer and then compare their strategies by guiding a bear through a path that has more mushrooms than the other.

Grade 1 math curriculum overview displaying six units with instructional and assessment days: counting, addition, subtraction, numbers to 10, comparing numbers, measuring length, and geometry—aligned with the New York Math standards.
Program structure

Get to know the content and structure of Grade 1 Amplify Desmos Math.

Children interact with math activities on a large tablet while observing fish illustrations. The text reads "Amplify Desmos Math Grade 1 Teacher Edition, aligned with New York Math standards.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Story Problems in Maui.

A digital math exercise, amplified by Desmos Math, showcases a story problem about adding kalo plants with three illustrations and a filled-out number sentence 3 + 4 = 7. A "Check" button is present. This tool aligns perfectly with New York math standards.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

Illustration of three children engaged in math activities from the "Amplify Desmos Math: Student Edition 1" textbook. One child holds a number card, while the others manipulate counters and images, experiencing an exciting approach inspired by New York math techniques.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of "Amplify Desmos Math Centers Resources" for Grade 1, featuring a yellow and white 3D letter "C" on a light background.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math, Grade 1: Intervention and Extension Resources" depicting a large, blocky number one and a yellow-themed design. Ideal for enhancing New York math curriculum.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

An educational game screen, inspired by New York math standards, shows a subtraction problem, "4 - 1," with a frog moving along numbered lily pads to reveal the answer "3.

In this lesson, students find differences when subtracting 1 and 2 from the same number by helping a frog reach a lily pad where it can eat a bug.

A curriculum overview for Grade 2 in New York Math displaying 8 units, including topics like comparisons, addition, subtraction, and geometric shapes, with details on the number of instructional and assessment days. This plan integrates resources from Amplify Desmos Math to enrich learning experiences.
Program structure

Get to know the content and structure of Grade 2 Amplify Desmos Math.

Cover of the "Amplify Desmos Math" Grade 2 Teacher Edition, showcasing children measuring with rulers and a poster displaying a mathematical equation, set against whimsical scenery with a colorful dragon. Perfect for New York math classrooms.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Adding and Subtracting.

Activity screen displaying a task to estimate the number of animals in an aquarium, featuring a bar chart for goldfish, frogs, and shrimp. Utilizing Desmos math tools, an illustration of an aquarium with various animals is also included to amplify learning.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

Cover of "Amplify Desmos Math Student Edition 2" showing three children performing a New York math activity with blocks and measurements.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of an educational book titled "Amplify Desmos Math Grade 2 Centers Resources" featuring a green "C" on a light green background, perfect for enhancing New York math education.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math Grade 2: Intervention and Extension Resources" featuring a green numeral 1 on a light green background, aligning with the New York math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

An educational activity where users must select the block with the correct number to make a total of 10 using the given block numbers. The UI, inspired by New York math standards, features a caterpillar and two tree stumps to amplify engagement with Desmos Math tools.

Students continue to develop fluency by finding the number that makes 10 by helping a millipede reach its favorite food – a clump of leaves!

An educational curriculum outline for Grade 3 with seven units covering various mathematics topics, including multiplication, shapes, fractions, and measurement. Suggested instructional days are provided. The New York Math approach ensures a thorough understanding of each concept.
Program structure

Get to know the content and structure of Grade 3 Amplify Desmos Math.

Cover of a "Grade 3 Amplify Desmos Math Teacher Edition" book, featuring a cutaway building with diverse students and a teacher working on New York math problems and organizing materials.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Concepts of Area Measurement.

Educational software displays a challenge to determine the area of an unpainted wall. The wall features a door and window with given dimensions, and a mouse pointer hovers near the question, amplifying the student's engagement.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

Cover of "Amplify Desmos Math Student Edition 3" showcasing illustrated children engaged in various mathematical activities inside a glass house structure, reflecting the dynamic energy of New York math.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of the Amplify Desmos Math Grade 3 Centers Resources book, featuring a 3D letter "C" in blue and white on a minimalistic background, perfect for aligning with New York math standards.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of an "Amplify Cover of the "Amplify Desmos Math" Grade 3 book featuring intervention and extension resources, with a blue geometric "I" on a light blue background, aligning with New York Math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

A page titled "Activity 2" features a table showing counts of rabbits, raccoons, and foxes, an image of animal stickers, and a bar graph representing the number of each animal, designed to amplify your New York math lesson with engaging visual data.

Students compare data represented on bar graphs with different scales by using animal stickers to create scaled bar graphs.

A course outline for Algebra 1 with 8 units, each detailing the number of instructional and optional days. The total suggested instructional days are 144 and 28 optional days, aligning with New York Math standards.
Program structure

Get to know the content and structure of Grade 4 Amplify Desmos Math.

Cover of "Amplify Desmos Math: Teacher Edition Grade 4" showing children learning New York Math outdoors, using large mathematical tools and numbers, with one child in a wheelchair.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Size and Location of Fractions.

Educational screen showing an interactive activity from Amplify Desmos Math where a user drags a point to cut a log into quarters. The progress is 2 out of 10.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

Cover of "Amplify Desmos Math, Student Edition, Grade 4," showcasing students collaborating on math problems involving shapes and numbers against a vibrant backdrop that blends cityscapes and natural scenery, capturing the essence of New York math learning.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of the "Amplify Desmos Math" Grade 4 Centers Resources book, featuring a large, stylized blue letter "C" on a light blue background. This essential resource for New York math educators ensures engaging and effective instruction.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math, Grade 4: Intervention and Extension Resources," featuring a geometric illustration and a blue and orange color scheme inspired by New York math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

Interactive educational activity asking users to determine platform heights using a 3-inch tube. The interface, inspired by Desmos math tools, features a dragging function and feedback system with a checkbox and "Try another" option, amplifying the learning experience.

Students choose tube lengths to connect to platform heights for hamster homes, identifying possible heights using what they know about multiples.

A Grade 5 curriculum scope and sequence chart with units covering volume, fractions, multiplication, shapes, place value, and measurement. Each unit lists instructional and assessment days to amplify Desmos Math activities.
Program structure

Get to know the content and structure of Grade 5 Amplify Desmos Math.

Illustration of three students engaging with various math activities outdoors and around large blocks. Text at the top reads "Amplify Desmos Math, Grade 5, Teacher Edition" - a perfect resource for New York math educators.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Fractions as Quotients.

A digital activity prompt showing a scenic landscape with bamboo shoots and a panda. Using Desmos math tools, the task is to estimate the length where the third bamboo shoot should be placed for the panda to reach a leaf. This exercise is designed to amplify your understanding of spatial reasoning.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

Cover of "Amplify Desmos Math: Student Edition, Grade 5" featuring students engaged in various mathematical activities outside, such as block building, measuring, and gardening—a perfect resource aligning with New York math standards.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover image of "Amplify Desmos Math Grade 5 Centers Resources" featuring a large purple letter C on a light purple background, showcasing the innovative approach of Amplify Desmos Math that's making waves in New York math education.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math Grade 5: Intervention and Extension Resources," featuring a large, stylized number five in purple against a light purple background with minimal geometric patterns, ideal for New York math curriculum support.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

An interactive screen showing an activity about decomposing a figure into prisms, with a touch of Desmos Math integration. The user is asked to drag points to demonstrate the decomposition. Two prism illustrations are displayed, offering a glimpse of New York Math's approach.

Students decompose a figure into rectangular prisms and determine the volume of the figure by adding the volumes of the individual prisms.

Contact Us

If you have any questions throughout your review process or need additional samples, please don’t hesitate to contact:

Alicia O’Neil

Account Executive

425-890-6103

aoneil@amplify.com

Request additional samples

Ready to learn more? Connect with an Amplify Desmos Math expert to request additional program samples.

Utah ELA Review for Grades PK–5

Thank you for taking the time to review Amplify’s core ELA program for PK–5. Amplify Core Knowledge Language Arts® (CKLA) is a state-approved core ELA curriculum designated as a primary core program that fully meets the Science of Reading requirements outlined in SB 127.

Amplify CKLA, developed in partnership with the Core Knowledge Foundation, was designed to help teachers implement Science of Reading principles and evidence-based instructional practices. Scroll down to learn how CKLA is uniquely designed to help all your students make learning leaps in literacy.

Illustration of a diverse group of people engaged in creative activities, including a woman holding architectural plans and a young girl reading a book.

Step 1: Program Introduction

Welcome to Amplify CKLA! Before you dive into our materials, watch the video below to learn about the big picture behind Amplify CKLA’s pedagogy.

In this video, Susan Lambert (Chief Academic Officer and host of Science of Reading: The Podocast) shares why Amplify CKLA was created, how it is built on the Science of Reading, and the impact it’s making across the country.

Step 2: Program Overview

Amplify CKLA is different for a reason. Watch the overview video below to learn about these differences and why educators love them.

In this video, you’ll get an in-depth look at the program’s overall structure and organization, the design behind our proven lessons, and the materials included to support teaching and learning.

The Amplify CKLA Program Guide also provides an in-depth view of how Amplify CKLA works, how it’s structured, and why it’s uniquely capable of helping you bring reading instruction based on the Science of Reading to your classroom.

Evidence-based design

Amplify CKLA is rooted in Science of Reading research. Mirroring Scarborough’s Rope, Amplify CKLA delivers a combination of explicit foundational skills with meaningful knowledge-building.

  • In Grades PK–2, dedicated knowledge-building and explicit skills instruction are taught simultaneously through two distinct instructional strands.
  • In Grades 3–5, dedicated knowledge-building and explicit skills instruction are woven together and delivered through one integrated strand.
Scarborough's Rope

Grades K–2 Skills and Knowledge Strands
Every day students in Grades K–2 complete one full lesson that explicitly and systematically builds foundational reading skills in the Skills Strand, as well as one full lesson that builds robust background knowledge to access complex text in the Knowledge Strand. Through learning in each of these strands, students develop the early literacy skills necessary to help them become confident readers and build the context to understand what they’re reading.

Grades 3–5 Integrated Strand
In Grades 3–5, Knowledge and Skills are integrated in one set of instructional materials. Lessons begin to combine skills and knowledge with increasingly complex texts, close reading, and a greater writing emphasis. Students can then use their skills to go on their own independent reading adventures.

Key features

For each Amplify CKLA key feature below, click the drop down arrow to learn more.

Built out of the latest research in the Science of Reading, Amplify CKLA delivers explicit instruction in both foundational literacy skills (systematic phonics, decoding, and fluency) and background knowledge in grades PK–2 with an integrated approach to explicit instruction in grades 3–5.

Review this Science of Reading toolkit to learn more about the Science of Reading best practices integrated throughout CKLA.

Amplify CKLA aligns with the instructional principles recommended by Orton Gillingham and LETRS.

  • Structured–Concepts are taught through consistent routines
  • Sequential–Concepts are taught in a logical, well-planned sequence
  • Systematic–Phonemes are taught from simplest to most complex
  • Explicit–Decoding and encoding concepts are taught directly and explicitly
  • Multi-sensory–Instruction is delivered through visual, auditory, and kinesthetic-tactile pathways
  • Cumulative–Concepts are applied in decodable, connected texts with constant review and reinforcement

Watch this video to learn more!

Additionally, great reading instruction starts with helping kids develop great decoding skills. Our instruction is supported by:

The Science of Reading reveals knowledge as an essential pillar of reading comprehension and lifelong literacy. Hear from author Natalie Wexler and CKLA customers on edWebinar about the importance of knowledge-building in reading instruction.

Hear from Natalie Wexlered
Webinar Links

Students build grade-appropriate subject-area knowledge and vocabulary in history, science, literature, and the arts while learning to read, write, and think creatively and for themselves. Our instruction is supported by:

  • Knowledge builders that provide a quick overview of each domain with its key ideas.
  • Interactive Read-Alouds designed to build knowledge and vocabulary.
  • Content-rich anchor texts that support students as they tackle increasingly complex text and sharpen their analytical skills.
  • Social and emotional learning paired with lessons in civic responsibility.

Amplify CKLA not only received an all-green rating from the rigorous evaluators at EdReports, but it was also recently recognized by the Knowledge Matters Campaign as a high-quality literacy program that excels in building knowledge. Our shared message: background knowledge is essential to literacy and learning.

Read our EdReports review
Read our Knowledge Matters review

Student-led reading practice should be purposeful and connected to the core. That’s why Amplify createdBoost Reading. As an optional add-on to Amplify CKLA, students have the opportunity to practice skills directly tied to the skills they’ve been working on during core reading time. Boost Reading also adapts to each student to address their personal gaps and bolsters foundational skills at a pace that supports their individual development.

Boost Reading’s collection of 40+ adaptive games target foundational reading skills and develops them in alignment with Science of Reading principles. Unlike other adaptive games, we ensure students:

  • Practice the right skills at the right time. Our embedded placement tool ensures students receive the content and skill practice most appropriate for their current reading level. From there, students move through our curriculum along their own learning pathway where they encounter personalized content tailored to their evolving skill and grade levels.
  • Progress along a pathway that adapts on multiple dimensions, not just one. For example, a student can work on early first-grade decoding in one game while building more advanced vocabulary knowledge in another.
  • Practice skills in tandem. For example, a student is never forced to master one skill area before proceeding to the next. Instead, we offer students that opportunity to work on multiple skills concurrently.
  • Feel supported with scaffolding, instruction, and practice that adapts based on student performance.
  • Stay engaged by giving them immediate and clear feedback. These results are never punitive. Instead our always-positive feedback is delivered in the context of the game world and is designed to motivate students to keep trying.

Click the buttons below to learn more:

Step 3: Program Resources

Easy-to-use print materials

Amplify CKLA’s easy-to-use materials bring foundational skills and knowledge to life in the classroom.

Download the Amplify CKLA Components guide to see components by grade and watch the print materials walkthrough below.

Engaging CKLA digital experience

The top-rated content of Amplify CKLA is now live with the digital experience that enhances instruction and saves time.

Two digital dashboards are displayed: one for teachers showing recommendations and a program list, and one for students showing to-do items and a lesson named Mount Olympus, Part II.

With the digital experience, everything is in one place, making it easier and more engaging than ever to plan lessons, present digital content, and review student work. Click the arrows below to learn more.

With the digital experience, teachers have access to ready-to-use and customizable lesson presentation slides, complete with all the prompts from the print Teacher Guide embedded in the teacher view. As teachers deliver each lesson, students can engage with the content in one cohesive experience—through these CKLA resources: Activity Books, slides, digital components, videos, Student Readers, and more.

The innovative live review tool found in the digital experience enables you to keep an eye on all of your students as they work on drawing, recording audio, uploading and capturing images, and typing or writing in pre-placed textboxes in their Activity Pages. This dynamic tool provides countless classroom management benefits, enabling you to spot and correct common mistakes as they’re happening, praise your students for thoughtful work, and identify students who are not engaged in the task at hand. Simply put, it will give you those valuable “eyes in the back of your head” you’ve warned your students about!

The digital experience integrates with various LMSs, allowing you and your students to access Amplify CKLA with the software you’re already comfortable using.

In the Amplify CKLA student digital experience, your students have one intuitive access point to fully engage with classroom instruction. Through the Student Home, students can easily access digital lessons with slides, Activity Pages, ebooks, videos, and other interactives from one simple dashboard. Students can draw, record audio, upload and capture images, and type or write in pre-placed text boxes in their Activity Pages.

CKLA review resources

Step 4: State Review Resources

Step 5: Program Access

Explore as a teacher

Before logging in, watch this brief video on navigating the CKLA Teacher Platform.

Ready to explore as a teacher? Follow these instructions:

  • Click the Amplify CKLA Teacher Platform button below.
  • Select Log in with Amplify.
  • Enter the teacher username: t1.utcklapk5@demo.tryamplify.net
  • Enter the teacher password: Amplify1-utcklapk5
  • Choose CKLA from the “Your Programs” menu on Educator Home.
  • Select a grade level from the drop-down menu at the top of the page.
Amplify CKLA Teacher Platform

Ready to explore as a Student? Follow these instructions:

  • Click the Amplify CKLA Teacher Platform button below.
  • Select Log in with Amplify.
  • Enter the student username: s1.utahcklapk5@demo.tryamplify.net
  • Enter the student password: Amplify1-utahcklapk5
Amplify CKLA Student Platform

Oregon Enhanced ELA State Review for K–5

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Amplify Science

A new phenomena-based science curriculum for grades K–5.

A disciplinary literacy approach to learning science

Literacy is an integral part of science. Scientists read, write, listen, and speak in order to obtain, evaluate, and communicate information about the natural world. They explain their findings, conduct research, connect to the work of other scientists, and communicate ideas to a variety of audiences. In the Amplify Science program, students learn to read, write, and speak as scientists do as they acquire facility with the academic language and vocabulary of science. Through the seamless integration of science and literacy instruction, students also learn that reading, writing, and talking are essential practices of science, and that all scientists use these practices to gather information, communicate claims, leverage evidence, draw conclusions from data, and share their ideas through oral and written explanations and arguments.

Situating literacy instruction in a content area like science has several benefits. First, it helps students develop ways of thinking that are characteristic to the discipline. Second, building background knowledge in a discipline also helps students access complex content in texts that can be difficult to grasp. Finally, situating literacy in a content area like science provides an authentic reason for reading, writing, and talking — to better understand the science ideas under study. Reading, like science, can be an act of inquiry when there are genuine questions to be investigated.

The following are the guiding principles for disciplinary literacy in the Amplify Science program:

  • Students can acquire literacy expertise through the pursuit of science knowledge and by engaging in scientific and engineering practices.
  • Attention to disciplinary literacy instruction should begin as soon as students enter school and should continue throughout the grades.
  • Participation in a community is key to acquiring disciplinary expertise and literacy.
  • Argumentation and explanation are the central enterprises of science and, thus, these practices are the focus of reading, writing, and speaking in science.

Reading in Amplify Science

Amplify Science provides students with well-written, grade-level appropriate informational texts alongside explicit, embedded instruction on reading in science. Throughout the program, students are apprenticed into reading like scientists – that is, reading actively, curiously, and critically, with a focus on making meaning and using the text as a source of evidence. As students read science texts in conjunction with other multimodal experiences around a topic (doing, talking, visualizing, writing), they increase their skill in accessing these complex texts, as well as their understanding of the importance of text for finding information. Reading informational text is inexorably linked to students’ investigations in each unit. Firsthand investigations provide background knowledge and context for students’ reading, and, in turn, the text provides information, evidence, and support for investigations in progress. In addition, the program includes many books and articles that introduce diverse scientists currently working in the field to highlight science and engineering as a vibrant and viable career choice for students.

Reading in Amplify Science is approached from an inquiry stance – students ask questions, make connections, evaluate information, search for evidence, and clarify difficult concepts as they read. This approach focuses on the practices and processes by which experts in a field obtain, evaluate, and communicate information, including arguments, explanations, data, and visual representations used to explain scientific concepts. Across the program, the teacher models, and students practice, reading like scientists while using reading strategies and approaches that are appropriate to the task, purpose, and grade level. Along with explicit instruction, teachers model strategic reading by thinking aloud as they read, asking questions, and linking the information in the text to their class’s investigations. Students are then provided with multiple opportunities to read and discuss ideas with peers, using the text as a resource for information and evidence. Reading and discussing texts in these ways builds students’ capacity to read strategically while simultaneously building their understanding of science content. The scaffolded reading experiences at each grade level help students learn to approach complex texts in systematic ways and will aid them as they read other science texts throughout their school careers.

TEXT DESIGN AND ACCESSIBILITY Each Amplify Science unit includes custom-written informational texts. In K–5, there are five student books (four informational books and one reference book) per unit; in grades 6–8, there are multiple student articles per unit. These informational texts are designed to support students’ understanding of science ideas, practices, and crosscutting concepts, as well as to showcase the work of diverse scientists. An important goal of the Amplify Science program is to provide appropriately complex science texts for students that support, link to, and expand their firsthand science learning. To accomplish this goal, it is critical that the texts are accessible to as many students as possible. All Student Books, articles, and other student materials are reviewed for accessibility and readability using the three-dimensional model of text complexity (qualitative, quantitative, and reader-and-task considerations) set out by the Common Core State Standards for English Language Arts (CCSS-ELA).

The qualitative dimension of text complexity focuses on the purpose, structure, language conventions, and knowledge demands of a text. Books and articles were written, reviewed, and edited by members of the Lawrence Hall of Science team of professional educators and science writers during the development of each unit. They are tailored to address concepts students are learning in the unit, and use the same language and vocabulary throughout so students encounter consistent terminology across modalities of learning (reading, writing, doing investigations, discussing).

The texts also include carefully created or selected visual representations such as diagrams, photographs, and illustrations that support and/or provide additional information. The placement of each book or article within the instructional sequence is carefully designed and classroom-tested so that the text is supportive of student content learning in a variety of ways, and provides just-in-time information, reinforcing key ideas or introducing new ones within the unit.

On the quantitative dimension, each book and article was designed and reviewed using internally developed criteria for each grade. Each book or article was analyzed against a list of commonly used words, as well as criteria for calculating the difficulty of decodable words. The number of unique hard words in each text was controlled, with the percentage of hard words varying based on the grade level. At the same time, a small set of core science vocabulary words related to the science ideas students are learning was repeatedly used across a set of books or articles because repeated encounters with words in context is one way that students learn and internalize them. In addition to our internal approach to readability, each book or article in grades 1–8 was analyzed by MetaMetrics and assigned a Lexile Measure. This allowed us to ensure that books and articles fall within recommended Lexile Measures found in the updated Text Complexity Band in Supplemental Information for Appendix A of the Common Core State Standards for English Language Arts and Literacy: New Research on Text Complexity.

Reader and task considerations are related to whether a particular text is appropriate for particular students and particular tasks. The placement of books within the Amplify Science program of instruction was carefully considered as part of unit design. Books were strategically placed within the sequence of instruction to ensure they are appropriately tied to what students are learning and that students are adequately prepared to read them with appropriate support. Sometimes this means that students read a text before conducting a firsthand investigation because it serves the purpose of activating and enhancing students’ background knowledge about a topic and sparking an interest in a scientific idea. At other times, students read a book after they have had a chance to investigate and develop ideas about the phenomenon firsthand because reading will help them generate more evidence to support claims. We cannot know all the individual learning needs of every reader the program reaches; however, the design and placement of the books was also informed by survey data from field trial teachers. These teachers were asked to evaluate field trial versions of the books and accompanying lessons based on several criteria, and to comment on how well the instruction and respective text worked for different readers.

More information on reading in Amplify Science available through in-person professional learning and within the Program Guide included with purchase.

Elk Grove Science K5

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A collage featuring a hot air balloon, dove, frog, parrot, rocket ship, and Earth with illustrated mountains and stars across a colorful background.

Amplify CKLA 3rd Edition Pilot Packs

Middle-of-year pilot

We know it can be overwhelming to start a new curriculum, but we’re here to help every step of the way! Within this site, you’ll find resources to help you get started before your implementation training, including a materials checklist, unit and domain summaries, support videos, and more. These tools will support your core literacy instruction with Amplify CKLA during your pilot period. We hope this site is helpful in getting you started.

Middle-of-year pilot
Get started

To get started with your new pilot of Amplify CKLA 3rd Edition, you’ll first want to review the following:

You may also find the resources below helpful as you begin your pilot:

Access key materials designed to support your review of Amplify CKLA 3rd Edition.

Amplify CKLA’s all-in-one digital platform offers essential tools that streamline instruction for teachers and engage students with meaningful content. Teachers can plan and deliver lessons efficiently, while students can access assignments, assessments, and fun practice games.

Presentation Screens
Deliver interactive lessons with ready-made, customizable slides for every lesson.

Auto-scored digital assessments
Assess vocabulary, comprehension, and knowledge development at the end of each K–2 Knowledge and 3–5 Integrated Unit.

Standards-based reports
Identify strengths and growth areas for individuals or your entire class. Interactive dashboards offer detailed results from assessments and activities.

Skill-building practice games
Engage students with interactive games that reinforce concepts and make learning fun. Powered by Boost Reading™, these games align with lessons and provide real-time feedback.

eReader
Students access texts, take notes, and use audio-enabled eReaders to enhance their reading experience.

Sound Library
Students watch articulation videos and listen to songs for each sound to support phonological awareness.

Two computer screens display educational assessment interfaces, with reports and questions on charting world geography and sentence usage.

Middle-of-year Pilot Pack materials

Below are the components of your Amplify CKLA Pilot Pack, organized by grade level and teacher/student materials. Please click on your grade level to review the teacher and student materials listed and verify that all items have been received.

A spiral-bound book cover titled "Skills 5" with a large number 5 in the center, surrounded by images of a cat, chair, bugs, and a hat, on a pink background.

Teacher materials

Skills Unit 5 Teacher Guide
A kindergarten teacher guide titled "Skills 6" with illustrations of a cat, insects, a hat, and phonetic symbols on a pink background.

Teacher materials

Skills Unit 6 Teacher Guide
Red spiral notebook cover titled "Skills 7" with illustrations of a cat, insects, a hat, and various symbols.

Teacher materials

Skills Unit 7 Teacher Guide
Illustrated book cover titled "Ox and Man" with a man riding an ox, followed by two people, set in a vibrant landscape.

Teacher materials

Skills Unit 5 Big Book
Illustrated underwater scene with a child wearing goggles, surrounded by colorful fish and coral. The word "kit" is at the top of the image.

Teacher materials

Skills Unit 6 Big Book
Illustration of three animated characters in a flying car above a futuristic cityscape with the name "Seth" in the sky.

Teacher materials

Skills Unit 7 Big Book
Educational card cover for "Small Letter Cards" from Amplify CKLA. Pink background with various icons including a hat, cat, insects, and phonetic symbols. Grade K marked in the corner.

Teacher materials

Small Letter Card Set
Red cover of a language learning book featuring a cat, hat, table, fruits, and insects with speech bubbles containing phonetic symbols. Text reads “Amplify CKLA” and “Skills Large Letter Cards.”.

Teacher materials

Large Letter Card Set
Illustrated poster with a cat, insects, a hat, and a table with an apple. Features phonetic symbols /a/, /e/, and /u/. Text reads "Amplify CKLA" and "Skills Sound Posters, Grade K".

Teacher materials

Sound Posters Sample
A red card labeled "Sound Cards" with images of a cat, insect, hat, and food, speech bubbles with "/u/", and an ISBN barcode; labeled "Amplify CKLA Grade K.

Teacher materials

Sound Cards Sample
Illustrated book cover of "The Five Senses" shows people enjoying activities in a park, such as playing music, picnicking, and interacting with animals.

Teacher materials

Knowledge 2 Teacher Guide
Illustrated book cover titled "Underdogs and Heroes: Stories." Features a child playing violin, animals, and a farmhouse in the background. Part of Amplify CKLA Knowledge 3 for Grade K.

Teacher materials

Knowledge 3 Teacher Guide
Cover of a geography teacher guide titled "All Around the World: Geography," featuring images of a globe, landscapes, and people.

Teacher materials

Knowledge 7 Teacher Guide
Cover of "Shaped by Nature: Art and the World Around Us" teacher guide for Grade K. Features colorful art supplies and nature imagery.

Teacher materials

Knowledge 10 Teacher Guide
Illustration of people in a park: children playing, adults with a barbecue, a man playing guitar, a food truck, and a person with a black dog. Text: "Knowledge 2 - The Five Senses".

Teacher materials

Knowledge 2 Image Cards
Illustrated book cover with farm animals, a child playing the violin, and a pink building in the background. Title: "Underdogs and Heroes: Stories.

Teacher materials

Knowledge 3 Image Cards
Cover of "All Around the World: Geography" book, featuring a globe, children, and photos of various landscapes and cities.

Teacher materials

Knowledge 7 Image Cards
Cover of "The First Drawing" by Mordicai Gerstein, featuring a prehistoric child drawing a mammoth on a cave wall, with a torch illuminating the scene.

Teacher materials

The First Drawing
Illustrated book cover titled "van Gogh and the Sunflowers" by Laurence Anholt, featuring a drawn man and child holding sunflowers.

Teacher materials

Van Gogh and the Sunflowers
Illustrated book cover titled "My Name is Georgia" by Jeanette Winter, featuring a woman holding a red flower against a sky with clouds.

Teacher materials

My Name is Georgia
The book cover features "A Life Made by Hand: The Story of Ruth Asawa" by Andrea D'Aquino, with abstract art and a flower design.

Teacher materials

A Life Made by Hand
Book cover of "Rainbow Weaver" featuring an illustrated girl with long hair in a colorful woven outfit, set against a bright sky. Authored by Linda Elovitz Marshall, illustrated by Elisa Chavarri.

Teacher materials

Rainbow Weaver/Tejedora del Arcoiris
Book cover of "Luna Loves Art" by Joseph Coelho and Fiona Lumbers, featuring a girl with art supplies and colorful splashes.

Teacher materials

Luna Loves Art

Cover of "Amplify CKLA" Skills activity book for Grade K, featuring illustrations of insects, a cat, and a hat on a pink background with phonetic symbols.

Student materials

Skills Unit 5, 6 and 7 Activity Book Sample
Illustration of a diver swimming among colorful fish and coral under the sea with the word "Kit" at the top.

Student materials

Skills Unit 6 Reader
A cartoon family rides in a green futuristic flying car, surrounded by tall skyscrapers and colorful sky elements. The name "Seth" is in the sky.

Student materials

Skills Unit 7 Reader
Pink sample cover for the Amplify CKLA Skills Chaining Folder. Features a cat, hat, ladybug, bee, and dragonfly illustrations, along with phonetic symbols and a warning: "FOR REVIEW PURPOSES ONLY.

Student materials

Chaining Folder
A kindergarten picture reader book with images of a cat, hat, insects, table with vase, and phonetic symbols on a pink background.

Student materials

Picture Reader Sample
Red Amplify CKLA activity book cover featuring a globe, sunflowers, and a list of contents related to geography and art.

Student materials

Knowledge 2, 3, 7 and 10 Activity Book Sample
Yellow book cover titled "Skills 2" with illustrations of a frog, knight, and coins. Part of Amplify CKLA, Grade 1, Unit 2.

Teacher materials

Skills Unit 2 Teacher Guide
Cover of "Skills 3 Teacher Guide" with a large number 3. Features images of coins, a planet, a knight, and a frog. Various phonetic symbols are scattered in the background.

Teacher materials

Skills Unit 3 Teacher Guide
Cover of a workbook titled "Skills 4" featuring a large number 4, a knight, a frog, coins, a moon, and various phonetic symbols on an orange background.

Teacher materials

Skills Unit 4 Teacher Guide
Illustrated book cover titled "Gran" showing an older woman hugging two children in front of a house.

Teacher materials

Skills Unit 2 Big Book
Illustration of a fox reading a book titled "Fables" to a rabbit and squirrel in a forest clearing with sunlight filtering through the trees.

Teacher materials

Skills Unit 3 Big Book
Cover of a workbook titled "From Nose to Toes: How Your Body Works," featuring X-ray images of skeletons and organs on a spiral-bound teacher guide.

Teacher materials

Knowledge 2 Teacher Guide
Textbook cover titled "Common Threads: Different Lands, Similar Stories," with illustrations of three children exploring nature, including a large mushroom and vibrant flowers.

Teacher materials

Knowledge 3 Teacher Guide
Cover of "Charting the World: Geography" teacher guide, featuring a hand-drawn world map with colored pins, a compass, and pencils.

Teacher materials

Knowledge 5 Teacher Guide
Cover of "Adventure Stories: Tales from the Edge" showing Earth's view with space paraphernalia and an inset of a historic building and explorers on brown horses.

Teacher materials

Knowledge 10 Teacher Guide
Educational book cover featuring X-ray images, cartoon organs, and germs. Title: "From Nose to Toes: How Your Body Works," Grade 1. Includes a cartoon of a brain in a skull.

Teacher materials

Knowledge 2 Image Cards
Illustrated book cover showing characters exploring a vibrant woodland with large mushrooms and plants. Title: "Common Threads: Different Lands, Similar Stories." Grade 1, Amplify CKLA.

Teacher materials

Knowledge 3 Image Cards
A geography workbook cover featuring a hand-drawn world map, various papers, a magnifying glass, a compass, and pencils on a wooden table.

Teacher materials

Knowledge 5 Image Cards
Educational chart for Grade 1 consonants showing pronunciation and examples like "g" in "gag" and "ch" in "chip.

Teacher materials

Code Poster Set
Cover of a yellow booklet titled "Skills Spelling Cards" with images of coins, a frog, a robot, the moon, and phonetic symbols.

Teacher materials

Spelling Card Set
Yellow educational card with a knight, frog, coins, moon, speech bubbles with phonetic symbols, and text that reads "Amplify CKLA" and "Skills Large Letter Cards.

Teacher materials

Large Letter Card Set
Book cover titled "My Name is Gabito" by Monica Brown, illustrated by Raúl Colón, featuring a boy reaching for a book under a tree.

Teacher materials

My Name is Gabito/Me llamo Gabito
Book cover of "Tomas and the Galapagos Adventure" by Carolyn Lunn, illustrated by Ashley Rades, featuring a child with a turtle and a volcanic island in the background.

Teacher materials

Tomas and the Galapagos Adventure
Book cover of "The Astronaut with a Song for the Stars," showing a person playing a flute in a spacecraft.

Teacher materials

The Astronaut with a Song
for the Stars: The Story of Dr. Ellen Ochoa
Book cover of "Mae Among the Stars" featuring an illustration of a child in a space suit against a starry background.

Teacher materials

Mae Among the Stars
Illustrated book cover titled "Shark Lady" showing a woman in scuba gear swimming with a shark, surrounded by fish and ocean plants.

Teacher materials

Shark Lady: The True Story of How Eugenie Clark Became the Ocean’s Most Fearless Scientist
Cover of "Manfish: A Story of Jacques Cousteau" by Jennifer Berne, featuring an illustration of a diver with fish, set against a deep blue background.

Teacher materials

Manfish
Book cover of "Keep On! The Story of Matthew Henson" featuring an illustration of Henson in polar gear with a dog, a sun, and a flag. Written by Deborah Hopkinson, illustrated by Stephen Alcorn.

Teacher materials

Keep On! The Story of Matthew Henson, Co-Discoverer of the North Pole
Book cover titled "The Top of the World: Climbing Mount Everest" by Steve Jenkins, featuring an illustration of a climber on a snowy peak with mountains in the background.

Teacher materials

The Top of the World: Climbing Mount Everest

Cover of a book titled "Amplify CKLA Skills Units 2-4 Activity Book" with images of a moon, coins, a frog, and a knight on a yellow background.

Student materials

Unit 2, 3 and 4 Skills Activity Book Sample
Illustration of a smiling person wearing glasses hugging two children under a tree, with a house and text "Gran" in the background.

Student materials

Skills Unit 2 Reader
Illustrated book cover titled "Fables" features a fox reading to forest animals in a woodland setting.

Student materials

Skills Unit 3 Reader
Book cover titled "The Green Fern Zoo" featuring illustrations of various animals against a leafy background.

Student materials

Skills Unit 4 Reader
Cover of an activity book titled "Amplify CKLA." It features an open book with a person, a space shuttle, and nature in the background. A list of knowledge themes is included.

Student materials

Knowledge 2, 3, 5 and 10 Activity Book Sample
Green book cover titled "Skills 2" with a large number 2, featuring images of a crow, acorn, gloves, and a pencil.

Teacher materials

Skills Unit 2 Teacher Guide
Green workbook cover titled "Skills 3" with images of a crow, acorn, pencil, and gloves. Grade 2.

Teacher materials

Skills Unit 3 Teacher Guide
Book cover for "Skills 4 Teacher Guide" from Amplify CKLA, Grade 2, featuring a large number 4, a crow, acorn, pencil, mitten, and various symbols on a green background.

Teacher materials

Skills Unit 4 Teacher Guide
A chart displays various vowel sounds with phonetic symbols and example letter combinations on a green and white background labeled "Vowels.

Teacher materials

Code Posters
Green educational card cover with a crow, acorn, pencil, mittens, and phonetic symbols. Title: "Amplify CKLA Skills Spelling Cards, Grade 2.

Teacher materials

Spelling Card Set
Book cover titled "Fortunes and Feats: Fairy Tales and Tall Tales" featuring a knight, a dragon, a train, and a castle in a whimsical landscape.

Teacher materials

Knowledge 1 Teacher Guide
Cover of "Butterflies, Bees, and Beetles: Insects" teacher guide, featuring a colorful illustration of various insects and flowers against a sky background.

Teacher materials

Knowledge 5 Teacher Guide
Cover of a book titled "Sounds and Stanzas: Poetry" with whimsical illustrations of animals and leaves emerging from an open book. It is labeled as a Teacher Guide, Level 2.

Teacher materials

Knowledge 7 Teacher Guide
Cover of "Taking Flight: The Age of Aviation" teacher guide. It features a propeller, hot air balloons, a blimp, and a sunrise above clouds.

Teacher materials

Knowledge 10 Teacher Guide
Cover of a book titled "Butterflies, Bees, and Beetles: Insects" featuring various insects, flowers, and grass under a blue sky.

Teacher materials

Knowledge 5 Image Cards
Colorful book cover with a person reading, surrounded by illustrated animals and autumn leaves. Text reads, "Amplify CKLA, Knowledge 7, Sounds and Stanzas: Poetry, Image Cards.

Teacher materials

Knowledge 7 Image Cards
Children's book cover of "Up and Away!" by Jason Henry, featuring a whimsical illustration of a flying ship with two characters and colorful birds.

Teacher materials

Up and Away! How Two Brothers Invented the Hot Air Balloon
Illustration of Louis Blériot's historic flight across the English Channel in a vintage aircraft, with people preparing the plane.

Teacher materials

The Glorious Flight: Across the Channel with Louis
Book cover of "The Flying Girl: How Aida de Acosta Learned to Soar" by Margarita Engle, illustrated by Sara Palacios, showing a girl flying an early aircraft with birds nearby.

Teacher materials

The Flying Girl: How Aída de Acosta Learned to Soar
Book cover titled "Wood, Wire, Wings." A woman looks at flying airplanes. Authors: Kirsten W. Larson and illustrator Tracy Subisak. Subheading: "Emma Lilian Todd Invents an Airplane.

Teacher materials

Wood, Wire, Wings: Emma Lilian Todd Invents an Airplane
Cover of "Helicopter Man" shows a helicopter silhouette against a sunset, with a black-and-white photo of a man holding a hat. Title in yellow, author Ellen B. text included.

Teacher materials

Helicopter Man: Igor Sikorsky and His Amazing Invention
Illustrated book cover titled "The Tuskegee Airmen Story" by Lynn M. Homan and Thomas Reilly. It shows a pilot in front of an aircraft named "Boss Lady.

Teacher materials

The Tuskegee Airmen Story
Cover of "Skyward" by Sally Deng, featuring illustrations of female pilots and planes from WWII. Subheading: "The Story of Female Pilots in WWII." Published by Flying Eye Books.

Teacher materials

Skyward: The Story of Female Pilots in WWII
Book cover titled Book cover of "Aim for the Skies" featuring portraits of Jerrie Mock and Joan Merriam Smith with an illustration of Amelia Earhart in the background.

Teacher materials

Aim for the Skies: Jerrie Mock and Joan Merriam Smith’s Race to Complete Amelia Earhart’s Quest
Cover of a book titled "Amplify CKLA, Units 2-3, Activity Book." The green background features a crow, acorn, pencil, gloves, and phonetic symbols.

Student materials

Skills Unit 2 and 3 Activity Book Sample
A green activity book cover labeled “Skills Unit 4” features a pencil, a raven, an acorn, a mitten, and phonetic symbols. The top left corner displays the Amplify CKLA logo.

Student materials

Skills Unit 4 Activity Book Sample
Illustrated book cover titled "Bedtime Tales" featuring a bearded man with two children sitting on a patterned quilt.

Student materials

Skills Unit 2 Reader
Illustrated book cover titled "Kids Excel" shows children playing double Dutch jump rope in a park setting.

Student materials

Skills Unit 3 Reader
A woman and a boy walk together on a city sidewalk. The woman is smiling and holding papers; the boy is wearing a red shirt and looks happy. Text reads "The Job Hunt.

Student materials

Skills Unit 4 Reader
Green cover of an Amplify CKLA Grade 2 Activity Book featuring a hot air balloon, magnifying glass, and list of knowledge topics.

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Knowledge 1, 5, 7 and 10 Activity Book Sample
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Unit 2 Teacher Guide
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Unit 3 Teacher Guide
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Unit 6 Teacher Guide
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Unit 2 and 6 Activity Book Sample
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Poet’s Journal
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Unit 7 Activity Book Sample
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Unit 2 Reader
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Unit 6 Reader
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Charlotte’s Web
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Unit 7 Teacher Guide
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Poet’s Journal
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Unit 5 and 6 Activity Book Sample
Activity book cover for Grade 4 Unit 7, "From the Mixed-Up Files of Mrs. Basil E. Frankweiler." Features a bookshelf with various items and view of a cityscape through a window.

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Unit 7 Activity Book Sample
Textbook cover titled "The Changing Earth," unit 5, grade 4. It features an erupting volcano with a cross-section view.

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Unit 5 Reader
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Unit 6 Reader
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From the Mixed Up Files of Mrs. Basil E. Frankweiler
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Unit 2 Teacher Guide
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Unit 3 Teacher Guide
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Unit 5 Teacher Guide
Book cover titled "The Phantom Tollbooth," featuring a room with a bookshelf and a window showing a fantastical landscape.

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Unit 7 Teacher Guide
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Unit 2 Activity Book Sample
Activity book cover titled "The Deep Blue World: Oceans" with illustrations of a diver, sea creatures, and an open book on a purple background.

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Unit 5 Activity Book Sample
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Poet’s Journal
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Unit 7 Activity Book Sample
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Unit 2 Reader
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Unit 5 Reader
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The Phantom Tollbooth

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S3-03: Instructional strategies for integrating science and literacy

A graphic with the text "Science Connections" and "Amplify" features colorful circles and curved lines on a dark gray background.

We’re continuing our investigations around science and literacy with Doug Fisher, Ph.D., professor and chair of educational leadership at San Diego State University. We talk about the importance of integrating science and literacy, as well as practical guidance for teachers who want to unite the two disciplines in their own classrooms.

Listen as we discuss how science and literacy can be powerful allies and specific strategy areas to focus on when integrating the two disciplines. And don’t forget to grab your Science Connections study guide to track your learning and find additional resources!

We hope you enjoy this episode and explore more from Science Connections by visiting our main page!

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Douglas Fisher (00:00):

It’s not that you have to become a reading specialist to integrate literacy into science. It’s how our brains work.

Eric Cross (00:10):

Welcome to Science Connections. I’m your host, Eric Cross. This season, we’re making the case for our favorite underdog, which of course is science. Each episode we’re showing how science can be better utilized in the classroom, and making the case for why it’s so important to do so. In our last episode, we examined the evidence showing that science and English instruction can support each other. And now on this episode, we want to give you some more strategies for really making that a reality in your own home or classroom or community. So to help me, I’m joined on this episode by Dr. Douglas Fisher, Professor and Chair of Educational Leadership at San Diego State University. Dr. Fisher is actually someone who has conducted literacy training at my own school, so I’m excited to be able to share some of his wisdom with all of you. Oh, and just a heads up, Dr. Fisher dropped some gems about the ways teachers can integrate literacy and science in their classrooms. So you may want to have a notepad. Ready. And now here’s my conversation with Dr. Douglas Fisher.

Eric Cross (01:12):

Well, Doug, thank you for your time and for being willing to come and talk about literacy and science. I know you’re busy, all over the place, and so I was super-excited that we were able to lock you in and talk about this. And, on this episode, we’re gonna talk about the ways that science and literacy can support each other. And one of the reasons why I’m really excited for you is because you said some really key things for me as a science teacher, when you talked about literacy and supporting students. That just resonated so deeply in me. And I was like, “I need more Doug!” Because we’re on that same frequency. And I know it’s a subject that you’ve spent a lot of time writing about. So can you tell us a little bit about how this became an area of interest or a passion for you? Just literacy, and all of the work that you’ve put into it?

Douglas Fisher (01:54):

Yeah. So I’ve wanted to be a teacher for a really long time. And I went to San Diego State as an undergraduate, and I was taking English class and we were assigned topics. You know, like, you’ll do an assignment, you’ll write a paper for this English class. And I got the topic “illiteracy,” and I was a freshman at San Diego State reading all of these things about adults who don’t read very well or not at all. And I ended up writing my very first college essay on illiteracy — at the time, you know, called illiteracy, at the time. And so I got super interested in this. And so as I moved through college and into my teaching career, literacy became a really important thing for me to think about, because it’s the gatekeeper. You know, you can be taken advantage of, if you’re not very literate. People can use vocabulary against you, if you’re not very literate. We know that people who have higher levels of literacy have better health outcomes. They have better lifespans, longer lifespans. I mean, there’s just — literacy impacts so much more than “Are you reading your fourth-grade textbook?” It really has lifelong implications.

Eric Cross (03:01):

That part that you said about being taken advantage of … I just got a flyer in the mail yesterday. It was one of these mailers that looked like it was an authentic debt-reduction type of thing, but it was really just like a marketing email. If you read the fine print at the very bottom, it had all of this jargon about “This is a paid, you know, for-profit company.” But when you look at it, it had official stamps all over it. And I could imagine if someone’s receiving that, that probably fools a lot of people. Is that kinda like what you’re talking about, like being taken advantage of?

Douglas Fisher (03:28):

Yes. I had a student turn 18, got a letter from a “credit card company” that was offering her daily compounding interest. And if you don’t know what that means — at 23 percent! — if you dunno what that means, you are gonna be a victim. Literacy really influences a lot of our life. It’s also how our brain works. We have a language-based system in our brain. We read, write, speak, listen, and view. And the things we learn, we learn through speaking, reading, writing, listening, and viewing. From what we know, we are the only species that has an external storage mechanism. Like, we have the ability to store complex information outside of our body, in the form of notes. We can type them. We can write them. And we can then go back and retrieve that information, that complex orthographic information later. And it means the same thing. We can say we have a storage system and we’ve been doing this for a really long time. Way back to, you know, hieroglyphics and messages on cave walls. And throughout the ages of humans learning, how to store information that they can re-access again later. That’s become a super-complicated system. It’s how computers operate. And we send messages to each other and we text each other and we write things down, and we’re really good at putting ideas, information out there. Now, if it’s just speaking and listening, then we can forget it. We can say, “No, you said this,” or “I said that.” But when it’s written, and it’s print literacy, you know, it’s the orthographics there, you can go back to the same message and over and over again. Now, you might change the interpretation of it, but the message is still there.

Eric Cross (05:16):

Right. And that is such a key element, at least of modern education, is this written element of it. It’s what many schools live and die by. They’re quantitatively and qualitatively analyzed by it. It’s public. They can see it. And so there’s this heavy emphasis. And why do you think science and literacy can be powerful allies together?

Douglas Fisher (05:38):

Awesome. Well, it’s hard to learn science if you’re not literate.

Eric Cross (05:42):

This is true.

Douglas Fisher (05:42):

But that’s a one-way direction. And yes, science teachers and scientists do a lot of reading, writing, speaking, and listening and viewing. They use the five literacy processes all the time. When we interview scientists, they spend a lot of their time reading the work of other scientists and writing their findings, writing grant proposals, presenting at conferences, you know. So a huge part of the work of a scientist is not just at a bench conducting experiments. But even if you’re conducting experiments, you’re using your literacy processes to think about what you’re seeing in your experiment. So that’s a one-way direction. And I do think literacy has an influence on science. But since science goes the other way, it influences literacy. As you learn more and you understand more about the world, your background knowledge grows, your vocabulary grows, you become more literate in those different areas. And how you think. So if I’m learning about life science; I’m learning how the world works in a more, biologic physical world. And that knowledge helps me think about when I’m reading a novel, and there’s an appeal to some science knowledge or a concept that gets played with, you know, perhaps time-space continuums … well, if I don’t have the science knowledge of how I think the world works, it’s hard for me to understand what this author is doing. So it does go both ways. They feed each other. And the more literate we become, the more complex science information we can understand. ‘Cause our background knowledge and our vocabulary influence how much we understand about what we read. And as we access more complex science information, it starts to change the way we think about other things in our world.

Eric Cross (07:23):

There was a couple of things that you said in that, but one of the first things that kind of perked my ears is when you said grant proposals. Because I have friends that are scientists — and this is one of the things that when I was in school, they don’t talk about — but how much of their research is reliant upon getting funding —

Douglas Fisher (07:37):

Mm-hmm. <affirmative>,

Eric Cross (07:38):

— which you don’t think about if you’re becoming a chemist or a physicist or a biologist or working in the field, is that that funding, coming from the NSF or anywhere else. And sometimes students ask in class like, “Why am I writing so much? Like, I want to go into science!” Or “I wanna do this!” And this is a real-life example of how the writing could actually apply, in addition to all of the things of collecting data and conclusions and results. But that grant proposal thing just really perked my ears, yeah.

Douglas Fisher (08:01):

And if you can’t write a grant proposal, your ideas and experiments are not gonna get funded. And if you can’t write a strong proposal, that compellingly convinces your readers to fund you, you’re not gonna get funded. But then once you get the grant, you have to write publications. You have to share your work with other people. Make PowerPoint presentations and write journal articles or books or whatever. So it’s a cycle that literacy influences the things we do, including the things we do in science.

Eric Cross (08:31):

Now to get in maybe some data, if you were trying to convince someone that like this happy marriage can exist, what would be like your number one piece of evidence to support this, this back and forth of supporting each other?

Douglas Fisher (08:44):

Awesome. So the quote I’ll often say — and this is from studies from more than two decades ago now — but in general, in high school science, students are introduced to 3000 unfamiliar words, 3000. Each year! Because there are words that are used in a scientific way that are used commonly in other places. And there are discipline-specific words. So 3000 words a year in high school science. The Spanish 1 textbook only has 1500 words in it. So science teachers have double the academic-language vocabulary demand that a typical introductory world-language class has. So just the vocabulary alone should say to us, literacy is gonna be important if you’re gonna learn science. And if you don’t understand these technical words, and you don’t understand the way science uses this particular word in this particular way… . When you say the word “process,” it means something very specific In science. “Division” — cellular division is not the way we think about it in mathematics; there’s a similar concept, but cellular division is different than dividing numbers. And those are words that get used in multiple areas. Then you have all these technical terms that you have to be able to use, to understand the concepts. To share the concepts. To talk to other people. Whether you’re in, you know, fifth grade and talking science, or you’re a university professor, there’s a shared language, appropriate for our grade level, that we have shared meanings of.

Eric Cross (10:22):

And we’re essentially … what I’m hearing you say is … most of the people that are listening to this are science teachers. We’re we’re also language teachers. In a sense.

Douglas Fisher (10:29):

So my frustration is when people say, “Every teacher’s a teacher of reading.” And I don’t like that. I’ve written against that phrase. I don’t think all teachers are teachers of reading, any more than all teachers are teachers of chemistry. Or all teachers are teachers of algebra. But what I will say is the human brain learns through language. And all of us — every teacher that I’ve ever met understands that language is important in my class. If my students don’t have strong listening skills and speaking skills; reading, writing, and viewing skills; I’m gonna have a hard time getting them to learn things. If I can help them grow their speaking, listening, reading, writing, and viewing in my content area, I’m gonna do a service for my learning of my subject and also their more broad literacy development.

Eric Cross (11:16):

  1. So, at a high level, what does it look like to integrate science and literacy? We’ve done education for the last, what, hundred years?

Douglas Fisher (11:24):

Mm-hmm. <affirmative>

Eric Cross (11:25):

—kind of pretty similarly, right? Kind of siloed way. What does this look like at the 30,000-foot level? You’re a professor, department chair. Run schools. Speak everywhere. Like, when you think about this from that high level, what does it look like?

Douglas Fisher (11:39):

A high level? Every time I meet with students in a science class, you know, biology or fifth grade or whatever? They should be reading, they should be writing, they should be speaking and listening. Every class. So what print do you want them to access? And it can be a primary source document, it can be an article, it can be from a textbook. Are they reading something? Are they writing to you? Because writing is thinking. If they are writing, they are thinking. As soon as their brain goes somewhere else, they stop writing. The pen won’t move or the fingers don’t type. And then speaking and listening, of course, is the dynamic of our classes. So every day we should see some amount of reading, writing, speaking, and listening, viewing in our classes. That’s at a high level. There are some generic things that seem to work across the literacy. So, learning how to take notes. Focusing on vocabulary. Using graphic organizers. These are generic things that as educators we can use in our classes. Then there’s more specialized things. So, scientists and science teachers think differently than historians and literary critics and art critics. So scientists, if you look at the disciplinary literacy work, there’s a whole body of research where they interview and study high-end experts in their field: chemistry, physics, biology, et cetera. And there are some characteristics that were more disciplined, specific. Scientists like cause and effect relationships. They look for them when they’re reading. They like sourcing information. “Where this come from?” “What’s the history of this idea?” Scientists have a long view in terms of time. Historians have a shorter view of time. English teachers have even shorter view of time. Scientists tend to think in long periods of time. And so all of that influences how a scientist reads and how we should apprentice young people after they get past the generic “I know how to take notes. I know how to study my vocabulary. I know how to do summary writing for my teacher in my notebooks and things,” there’s some generic tools. Once we get past those, we need to be looking at specifically how do people in science use literacy.

Eric Cross (13:52):

I’ve never had my thought process of reading deconstructed just now, but we just described how scientists read. I was like, “Yeah, that’s pretty much how I read, right there.” I also like how you said how we should apprentice young people. And I feel like you as the literacy guy, you chose that word very specifically, as far as apprenticing young people. That is a view, I think, that’s really important to hold. ‘Cause that’s what we’re doing essentially … is, if we’re doing what we should be doing, we are apprenticing these young people.

Douglas Fisher (14:18):

Yes.

Eric Cross (14:18):

And helping them develop. Now, let’s imagine there’s a listener out there and they’re interested in getting better at integrating science and literacy instruction. They want to start somewhere. Before we dive in, do you have any initial words of encouragement for the person who’s like, “Everything is like a priority right now,” in their classroom or in their world?

Douglas Fisher (14:37):

Yeah. So I’ll talk about elementary for just a moment. When we’re reading informational texts in our literacy block, we should be reading information that is aligned to what kids need to learn in science and history in, in that grade level. Why are we reading things that are gonna be in conflict with what they’re gonna learn in science later that day in fourth grade, for example? So when we look at our standards, our expectations, what is it that third graders need to know in history, science, mathematics, language arts? And when we’re reading text and we’re learning to apply our reading strategies during our literacy block, why aren’t we reading topics that build our background knowledge for our science time? So we’re seeing some synergy there. We should be looking at life cycles in grades that are appropriate for life cycles and knowing there’s more to life cycles than the frog and the plant or the seed. There are all kinds of life cycles. And we call ’em life cycles for a reason. That’s a general concept. Now in science, we’re looking at this particular lifecycle right now. And so that’s a high level. If we could get more connection to the content standards during our literacy blocks, it would be very good. When we talk about the time at which we call “science” in the day, in more of the K–8 continuum, the science needs to include some primary source documents. Some real things that students are reading. Read about a scientist; read about a scientist’s discovery; read about what they discovered. So that we’re building our background knowledge. So when we go to do things, activities, labs, simulations, we have background knowledge and we understand what we’re experiencing. It can’t be like—I watched this awesome lesson on lenses and the teacher had all these different lenses in the room and the students came in and they were brand new. They don’t know anything. They were picking ’em up. They’re exploring them. They’re trying to figure out, and they’re trying to come up with theories about what this is and how it works. And then the teacher gave them a reading, a short reading, on refraction of light. And they read this thing. And the clarity that they had about what these lenses must do, well! All of a sudden they’re putting them up to the lights! They’re asking if they can go get the lights out of the storage unit! ‘Cause there’s — and they’re shining different lights through the lenses to see what happens to the light. Because that little bit of reading turned some focus on for the students. And it allowed them to take what I’m thinking about, what I’m trying to figure out, how this thing works in another direction. That’s the power of using literacy in our classes.

Eric Cross (17:20):

And what I’m hearing essentially is transfer across disciplines, across content areas, ultimately. And in an elementary school classroom, would it be fair to say, probably the teacher has more autonomy to be able to do that, since they’re teaching all the subjects? But secondary, logistically, planning and those types of things … from what you’ve seen, is it fair to say this kind of needs to be like a top-down, full vertical alignment, to teach like this?

Douglas Fisher (17:45):

I think that would be awesome to do that. But if I’m a sixth grade English Language Arts teacher and I’m working with my sixth grade science teacher, the conversation should be, “What units are you teaching?” Because I’m choosing informational text. My job is to teach them how to find central ideas. My job is to teach them how to find the details in the text. My job is to have them make a claim and support that claim with evidence. The stuff I use is generic. Yes, we do read some literature and some narratives, but we also read about 50% of the text in English around informational text. So if I can help you and accomplish my standards as well, fantastic. So let’s have this conversation and say, “Oh, this is what you’re teaching in science in the next three weeks? I’m gonna choose some texts and we’re gonna analyze ’em for central idea. We’re gonna analyze ’em for details. We’re gonna, for mood or tone or whatever that we’re teaching. And by the way, I’m building background knowledge. So when they come to you, they know some stuff about what you’re going to be teaching next.” So I don’t think it’s impossible to say teams of teachers could come together and say, “What do we believe that our students need to know and learn and be able to do? And then how do we choose things that are gonna help them accomplish exactly that?”

Eric Cross (19:01):

And that’s empowering. Because that’s one thing that we can control maybe is this East-West, peer-to-peer, different content areas. A system may not be able to change as quickly, but I can definitely go talk to my English team or math team and check in and kind of see, “Hey, where do we have overlap in that?” And I know the times that I’ve accidentally had overlap with the teams, it’s super-exciting. And the students have been more bought in! Because it’s like, we’ve done something on the human microbiome and we’ve talked about genetics and all these different things, and then when they read The Giver, or they read some book about genetics, they have all this knowledge. And they’re excited. And they talk about colorblindness or they come to my class and they’re like, “Hey, we read about this!” It’s almost like they saw a magic trick, the fact that these things linked up. And the engagement has been so much higher when it’s the same content in different classes, but through different lenses. At least, that’s what I’ve seen in my years of teaching.

Douglas Fisher (19:54):

I saw a lesson on space junk that was so cool. Middle-school students learning space junk. And the history teacher had a part of it, science teacher had a part of it, English Language Arts teacher had a part of it. And these students, I mean, you watch them look up all the time, ’cause there’s space junk up there. Where’d it come from? Why is it there? What are the politics of this? How do we clean it up? I mean, it was just so interesting to watch them when the teachers came together. And the teachers met their standards in this couple-week-long space-junk exploration. Investigation was met. Politics was met. All these different things. Economy. You know, how much does it cost to clean up this problem? So there’s really cool opportunities when teachers come together and realize we can work together and improve the literacy and learning of our students.

Eric Cross (20:50):

Absolutely. So before this recording, we picked your brain a bit. And I know that there were three specific strategy areas that you wanted to touch on. And one of those — which is kind of coming back to the 3000-words language teachers — was vocabulary. So what are the opportunities that you see, as far as the way of educators to approach vocabulary? Because, you know, there’s a lot. We got a lot of it. The 3000 words.

Douglas Fisher (21:14):

Yeah. There’s a lot of it. So the worry is, we make a vocabulary list and have students look up the words in definitional kinds of things. That’s not really gonna help. Students need to be using the words. They need to be using the words in their conversations, in their writing, in how they think about your content in science. So vocabulary is a huge predictor of whether or not you understand things. Vocabulary is also a pretty good predictor if you can read on grade level. So when we think about vocabulary, there’s something called word solving. You show students a piece of text and you’re reading it, you’re sharing your thinking, and you say, “Oh, here’s a context clue!” Or “I know this prefix or suffix or root!” And in science, a lot of the words are prefixed, suffixed, or root words. We tend to add things together with a lot of prefixes and suffixes and have roots and bases in science. So we can help students think about, “Oh, what does geo- mean? We already know what geo- means here. It means the same thing in this word. Let’s apply that knowledge.” So word solving is part of it, showing students how we think about words that we might not know. The second is more direct instruction of vocabulary. As students encounter the words, we work on what it means, how we say it. We practice it a few times. The process is called orthographic mapping. It’s kind of a scientific idea here. But you have the sound and the recognition of by-the-word, by sight, and what it means. And your brain starts to automatically recognize that word in the future. So I don’t have to slow down, disrupt my fluency, and try to figure out what the word is saying. ‘Cause I’ve seen it enough. I’ve heard it pronounced enough, I’ve pronounced it enough, and I know what it means. So teachers should be saying, “What words in sixth grade science, what words in third grade science, do my students really need to know?” And I’m gonna have them encounter those words over and over. I’m gonna have them use the words. I’m gonna have them see the words. I’m gonna have them say the words. I’m gonna say the word and we’re gonna be over and over with these terms, so that students incorporate them into their normal view of, “These are the things I know about the world.” By the way, when they go to read that next thing, and they understand “geology,” you know, for sixth graders, for example, they know how to say it. They don’t stumble on it. And it activates a whole bunch of memories in their brains. “This is what geology is.” There are branches of geology, there’s physical geology, there’s all this thinking that activates as they read.

Eric Cross (23:35):

There was a practice that I participated in and am trying to incorporate — I don’t know what the name of it is. But essentially what happened was we were dissecting a flower. And the instructor had us name parts of the flower. But we got to come up with our own names for it.

Douglas Fisher (23:49):

Ah.

Eric Cross (23:50):

So, for instance, the stamen we call “the fuzzy Cheeto.” And we all used our own words and then everything was legitimized. And so we went through and learned the whole activity using our own vocab words. But then, in the end, after we presented and talked about it, then the words, the actual academic language was attached to our word. And we were able to say, “OK, the fuzzy Cheeto is the stamen,” and this, this, this, and this. But it was such an interesting practice, because it kind of legitimized all of our definitions. But we weren’t stumbling on these long Latin terms and things like that. Is there a name for that? Or. … ?

Douglas Fisher (24:29):

Yes. I don’t know the name for that. I think it’s really smart. So here’s what I would say about that, is: we don’t learn words, we learn concepts. Words are labels for our concepts. So what that teacher did for you was allow you to develop concept, a concept knowledge. “There’s a part of this plant, it goes like this, we’re gonna call it fuzzy Cheeto. Now I have this concept. And look, it occurred in all these plants. And those people called it that and that other group called it that. We called it a fuzzy Cheeto. Here’s the part of it.” And then the concept is in your brains. And the teacher said, “It’s really called stamen.” And it’s an instant transfer, because you already had the concept. What we often see is students are trying to learn a really hard academic word and the concept for the word at the same time. And so it slows down the whole process. And there’s higher levels of forgetting. Because human beings, we don’t learn words; we learn concepts. If you don’t have the concept, if I gave you a word out of the blue that you’ve never seen, never heard, and a week from now I asked you to remember it, you probably would not, because it didn’t register. It wasn’t part of your schema. You didn’t have a way to organize the information. You don’t have a concept. So that teacher? It’s a great idea. Got you to develop concept knowledge. And then said, “Here’s a real label for it: What some other people called it when they had the chance to come up with their own names.”

Eric Cross (25:50):

Shout out to my teacher, who was—

Douglas Fisher (25:51):

Right.

Eric Cross (25:52):

It was learned then. It was a great practice. And the fact that you’re right, like, I just mean from my own personal experience, I agree that learning concepts versus complicated words. And it’s interesting that you said higher levels of forgetfulness, you know. And you often hear that complaint about it: “Students forget! Students forget!” But this complex topic and this complex word that’s new to me, and I have to remember both of those things.

Douglas Fisher (26:12):

That’s right.

Eric Cross (26:13):

And the other neat thing that it did, is it actually honored the background and like the founts of knowledge of all the different groups in the classroom. You just said something about “this group called it this and this group called it this,” and so by letting different groups share all of those names, now we’re starting to build these kind of interesting connections. That’s at least what I remember experiencing. And so this, even this practice of this approach is very layered, beyond just kind of generating new knowledge of things. So I appreciate that aspect of it. Now another area that you mentioned was complex text.

Douglas Fisher (26:41):

Yeah.

Eric Cross (26:42):

And how we can get students into complex text. So what can we do there?

Douglas Fisher (26:46):

I think science is an ideal place to get students reading things that are hard for them. And I do believe that some parts of school should be a struggle. Not all day, every day. But there should be doses of struggle, which are good for our brains. And these complex pieces of texts that don’t give up their meanings easily allow students to go back and reread the text and maybe mark the text and talk to peers about the text and answer questions with their groups. And the whole point of complex text is to say, “We persevere through it. We may not understand it fully on our first read. But we go back and we might underline, we might highlight. We might write some margin notes. Our teacher might say, ‘What did this author mean here?’ And we go back and look at that part and we take it apart. What do we think about that? And we talk to each other. It’s showing that when we read things, we work to understand. We work through our thinking, often in the presence of other people. And our understanding grows as we go into the text over and over and over again.” So I said geology earlier. There’s about a two-page article on “what is geology” that sixth graders often read. And some kids find it super boring. It’s a once-read, “OK, geology, I don’t really understand it. There’s a bunch of words in here that I don’t understand.” But if you go back to it a few times and you start taking apart, “What are the branches of geology? Oh, I’m gonna go reread that.” How are these two branches related to each other?” “What are the subtypes of each branch of geology?” “How do geologists do their work?” You start asking questions where students are going back into the text. You spend a little bit of time. Now, the introduction to geology, the students know so much more. So whatever you do next— video experiments, whatever—they have a frame of reference, because of that deep, complex read. It’s probably better than simply telling them, “Here’s the information.”

Eric Cross (28:45):

Right. And I even feel like as an educator, when I reflect on my own learning in the classroom, and then looking at it through the perspective of an educator <laugh>, you find this difference between how you were taught and then what the data says good teaching is.

Douglas Fisher (28:59):

Mm-hmm. <affirmative> mm-hmm. <affirmative>.

Eric Cross (29:00):

It’s so easy to slide back into how you were taught!

Douglas Fisher (29:02):

Yeah.

Eric Cross (29:02):

Even though, you know, you mentally assent to, “This is the best way. This is the data shows.” And you find yourself kind of sliding back at times.

Douglas Fisher (29:10):

Yep. And there’s good evidence to support what you just said, that most people teach the way they experienced school. And it is very hard to change that. And people have studied this. And it’s very hard to change that. Because it worked for us. And we have an n of 1, and it worked for us. Now, remember, there were a whole bunch of other kids in the class that it may not have worked for. And we chose to be in school the rest of our lives, and some of your peers did not choose to be in school the rest of their lives. In fact, some of them hated school and found no redeeming qualities of their experience. So just because it worked for us in a case of one, n of 1, doesn’t mean it worked for all of the kids, or even the majority of them.

Eric Cross (29:57):

Very well said. It’s that, what is that, the survivor bias? Survivorship bias? Where you were the one that made it. But you don’t think about all the other folks. ‘Cause we’re thinking about ourselves.

Douglas Fisher (30:05):

That’s right.

Eric Cross (30:06):

Great case for empathy too, is thinking about the people left and right. Because my friends are like, “I hated science.” And I say, “Who hurt you? Like, what did they do? It’s so amazing, so much fun!”

Douglas Fisher (30:16):

“What happened to you? Science is the coolest. Right? It’s so amazing!”

Eric Cross (30:21):

But I also had a unique experience in seventh grade with my teacher who did some of these things, and made it accessible for so many of us, in opening opportunities that I wouldn’t have had otherwise. But you’re absolutely right. That was my story. That wasn’t the story of everybody that was around me. And I think that’s really important. Now, I know this is also a big one for you, but I wanna talk about writing. What are the opportunities that you see in terms of writing specifically?

Douglas Fisher (30:51):

So would love it if science teachers had short and longer writing tasks in the science time. Of course, you can integrate some of the science writing, the longer ones, in the English language arts time, especially if you’re the elementary teacher and you can have control of the whole day. But I said this earlier; I’ll say it again. Writing is thinking. While you are writing, there’s nothing else you can do but think about what you are writing. Your brain cannot do something else. So if a science teacher wants to know, do their students really understand the concepts? Have them write. Now some of the shorter ones, I like something called “given word” or “generative sentences”: “I’m gonna give you a word: CELL. C-e-l-l. We’re in science. I want you to write the word ‘cell,’ c-e-l-l, in the third position of a sentence. So it’s gonna go word, word, cell, and then more words.” You could also say, “I want the sentence longer than seven words,” or whatever. But the key is, I’m telling you where I want the word. You will know instantly if your students have a sense of what the word “cell” means in the context of science. If they write “my cell phone,” they don’t get it. If they write about spreadsheet cells or jail cells or whatever, they didn’t get it. But if they talk to you about plant cells and animal cells and the components of those cells, and then once they have that sentence down, you can say to them, “Now write three or four more sentences that connect to that sentence.” It’s super simple. So whatever concepts you’re teaching, put ’em in a specific position. Now you don’t have to only put it in the third position. You can say the first position, the fifth position, the fourth position. But it forces them to think about what they know about the word and then how to construct a sentence for you. That’s a very simple way to get some writing from your students that helps you think about what they understand. Other kinds of writing, you can have quick writes, you can have exit-slip writes. There’s something in the research space called the muddiest part, where halfway through the lesson you have them write so far what has been the least understood or the most confusing part of this lesson. And they do a quick write, right there, at the muddiest part. And as a teacher, you flip through these and you start to say, “Oh, these are the points that are confusing to my students.” So if 80% of them all have the same thing, I gotta reteach that. If these five got, “This is the muddiest part,” If these five thought, “This is the muddiest part,” these seven, “I thought this was the muddiest part,” what do I need to do? Because it’s gonna be hard to move forward if this is their area of confusion. There are also all kinds of writing prompts that have a little bit longer. My favorite one is RAFT. What’s your Role? Who’s your Audience? What’s the Format? And what’s the Topic we’re writing about? Super flexible writing prompt. When you teach something, we don’t want students to only think they write to their teacher. So your role is an atom. You are writing to the other atoms. What do you wanna write about? What’s the topic? What’s the format of it? Is it a love letter? Is it a text message? Is it … so we, we mix it up with students in saying, how do they show some knowledge through a prompt that we give them? And then of course, longer pieces as they get older. More opinion pieces through fifth grade. More claims and arguments starting in sixth grade. So that they’re starting to see, “I have to use the evidence from things I’ve learned, read, listened to, watched, and construct something: an opinion, an argument where I back it up with reasons or evidence.” And those longer pieces, you know, less frequently. The shorter pieces, pretty regularly. So the teacher sees the thinking of the students.

Eric Cross (34:29):

When you were speaking about these really creative writing prompts, there were specific students coming into mind, that were coming into mind … they’re, they’re great science students, but they also have this really strong artsy side drawing, creative writing, and things like that. And when you said something about atoms talking to each other, it elicited, in my brain, certain students that would really love this aspect of creativity in the sciences. And it’s not how we’re typically trained as science teachers, to kind of incorporate this, like you said. A book of props. But I’m imagining, like, as a science teacher, if I took this, this would be a great way to reach more students to be able to show what they know, in a way that might resonate with their own intrinsic “Oh, I get to write creatively!” So I was kind of writing furiously as you were sharing all that information there.

Douglas Fisher (35:12):

So here, I’ll give you another example for elementary people. Again, with RAFT. There’s a book called Water Dance. It’s a pretty popular book for elementary teachers. It’s really about the life cycle of water. For example, you are a single drop of water. You are writing to the land. The format is a letter. And you’re explaining your journey. Now, if they can do this, they’re essentially explaining to you the cycle of water. But you got it in a way that people are now, “Oh, I’m a drop of water. So it’s me. My perspective. Where do I go from? Where do I start?” Because you can start anywhere in the cycle, right? My drop could have started in the clouds. My drop could have started in the ground. My drop could have started in the lake. But it has to show you the journey. So there are many ways of showing you the right answers.

Eric Cross (36:02):

And that’s using the RAFT protocol.

Douglas Fisher (36:04):

That’s RAFT: Role, Audience, Format, Topic. It’s been around 20 or 30 years.

Eric Cross (36:09):

You just gave the name to something a teacher shared in our podcast community, Science Connections: The Community, on Facebook. Teacher shared a Google slide deck and on it were just three slides. And the role that the student had to have is they had to show, then tell, the story of a journey of a piece of salmon being eaten, a piece of starch from pasta being eaten, and then an air molecule in a child’s bedroom. And they had to give the path of travel and the experience from the mouth and then breaking down into protein and all those kinds of things. And this teacher shared it and I wish I knew the teacher’s name because I wanna give ’em credit, but they shared it. And so I used it with my students and then had ’em read aloud their stories and dramatize it. And they were so into it!

Douglas Fisher (36:49):

So cool.

Eric Cross (36:50):

But through it, I was able to see that they understood different parts of the body. They understood cell respiration. The whole thing. And it was fun! To watch them get so into this creative writing. And now I know the name of it. That’s been 30 years they were using RAFT. So you just talked a bit about complex texts and writing. And before we go, I wanted to circle back to something that you said, because I think it’s important, and if you could elaborate on it a little bit, about the value of struggle. Can you talk more about that?

Douglas Fisher (37:21):

Sure. I do believe in a lot of the U.S. we’re in an anti-struggle era of education. And it predates Covid. I think it made it worse during Covid. We front load too much. We pre-teach too much. We reduce struggle. We quote, “over-differentiate” for students. And there’s value in struggle. The phrase, “productive struggle” — if you haven’t heard it, Google productive struggle — it’s an interesting concept, that we actually learn more when we engage in this productive struggle. Now, productive struggle originally came from the math world, and it was this idea that it’s worth struggling through things to learn from it, that you’re likely to get it wrong, and then there was productive success. And there are times when we want students to experience success and we make sure we put things in place for productive success. But there are times where we want them to struggle through a concept. ‘Cause it feels pretty amazing when you get on the other side, when you know you struggled and you get to the other side. If you think about the things, listeners, think about the things in your life where you struggled through it and you are most proud of what you accomplished. I want students to have that. I don’t wanna eliminate scaffolding, eliminate differentiation. But I do want some regular doses of struggle. So if you look at the scaffolding, we have a couple choices. We have front-end scaffolds, distributed scaffolds, and back-end scaffolds. Right now we mostly use front-end scaffolds: We pre-teach, we tell students words in advance, that kind of stuff. But what if we refrained from only using front-end scaffolds, and we use more distributed scaffolds, when they encounter. So there’s a difference between “just in case” and “just in time” support for students. So we tend to plan on the “in advance, here are all the things we’re gonna do to remove the struggle before students encounter the struggle.” What if instead we said, “Let them encounter some struggle. Here’s the supports we’re gonna provide. We’re gonna watch; we’re gonna remove those scaffolds, and allow them to have an experience of success, where they realize, ‘I did it. I got it.’” Every science teacher I’ve ever worked with, when they do an experiment or a lab or simulation, they are looking for productive struggle. They don’t tell the answers in advance. They don’t tell if the answers are right. That’s your data. What does your data tell you? I mean, this is what you do. But then the other part of your day when you move into, like, reading, you don’t do that. You fall into the trap of removing struggle. And so allow them to grapple with ideas. Allow them to wonder what words mean. Allow them to say, “I’m not getting this, teacher! It’s really frustrating!” And you say, “Yeah, this is really hard. This is why we’re doing it at school. ‘Cause it’s really hard. If it was easy, I’d have you do it at home. But we’re doing it here, ’cause it’s really hard and it’s OK not to get it at first.” And create a place where errors are seen as opportunities to learn, and struggling through ideas and clarifying your own thinking and arguing with other people to reach an agreement or reach a place where we agree to disagree is part of the power of learning.

Eric Cross (40:38):

There’s a teacher, who I took this from. My master teacher when I was student teaching. And she said that there’s no such thing as failure in science, just data. And I took that same mantra. And I resonate with what you said about how science teachers, all of us, hold onto that productive struggle, because it’s part of being a scientist. It’s part of the experiments. That genuine “aha” moment. Or it didn’t work out? That’s great! That’s totally fine! Let’s write about it and let’s take photos and let’s publish it and let’s be scientists. That’s totally true. As we wrap up, Dr. Fisher, is there any final message that you have to listeners about bringing science and literacy together? I know you speak everywhere, but for everyone that’s listening, if you can put out your encouragement or message or suggestion … you’ve given so many great tips and practical applications. But, any final thoughts on the subject?

Douglas Fisher (41:32):

I think many science teachers are intimidated because they think they have to be reading teachers. And there’s a knowledge base to reading. And some teachers are reading teachers and science teachers, and I don’t wanna dismiss that. But it’s not that you have to become a reading specialist to integrate literacy into science. It’s how our brains work. And so as you think about the way in which you are learning and the ways in which you want your students to learn, what role does language play? What role does speaking, listening, reading, writing, viewing, play in your class? And then provide opportunities for students to do those five things each time you meet with them.

Eric Cross (42:12):

Dr. Fisher, thank you so much for being here and for your encouragement, and sharing your wisdom and experience. And then personally serving my city, here in San Diego, and my students, when they make it to your high school and ultimately the alma mater of San Diego State University.

Douglas Fisher (42:30):

That’s right.

Eric Cross (42:31):

Yeah. We really, really appreciate you in serving all kids and lifting the bar and making things more equitable for all students. And encouraging teachers. So thank you.

Douglas Fisher (42:39):

Thank you very much.

Eric Cross (42:42):

Thanks so much for listening to my conversation with Dr. Douglas Fisher, Professor and Chair of Educational Leadership at San Diego State University. Check out the show notes for links to some of Doug’s work, including the book he co-authored titled Reading and Writing in Science: Tools to Develop Disciplinary Literacy. Please remember to subscribe to Science Connections so that you can catch every episode in this exciting third season. And while you’re there, we’d really appreciate it if you can leave us a review. It’ll help more listeners to find the show. Also, if you haven’t already, please be sure to join our Facebook group, Science Connections: The Community. Next time on the show, we’re going to continue exploring the happy marriage between science and literacy instruction.

Speaker  (43:26):

I had this moment of realization I felt a few months ago: I’m like, if I don’t teach them how to use the AI as a tool, as a collaborator, then they’re gonna graduate into a world where they lose out to people who do know how to do that.

Eric Cross (43:39):

That’s next time on Science Connections. Thanks so much for listening.

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What Dr. Douglas Fisher says about science

“There are really cool opportunities when teachers come together and realize we can work together to improve the literacy and learning of all our students.”

– Dr. Doug Fisher

Professor and Chair of Educational Leadership, San Diego State University

Meet the guest

Douglas Fisher, Ph.D., is professor and chair of Educational Leadership at San Diego State University and a leader at Health Sciences High & Middle College having been an early intervention teacher and elementary school educator. He is the recipient of an International Reading Association William S. Grey citation of merit, an Exemplary Leader award from the Conference on English Leadership of NCTE, as well as a Christa McAuliffe award for excellence in teacher education. He has published numerous articles on reading and literacy, differentiated instruction, and curriculum design as well as books, such as The Restorative Practices PlaybookPLC+: Better Decisions and Greater Impact by DesignBuilding Equity, and Better Learning Through Structured Teaching.

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About Science Connections

Welcome to Science Connections! Science is changing before our eyes, now more than ever. So…how do we help kids figure that out? We will bring on educators, scientists, and more to discuss the importance of high-quality science instruction. In this episode, hear from our host Eric Cross about his work engaging students as a K-8 science teacher. 

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Welcome, Ellensburg, to Amplify Desmos Math!

Amplify Desmos Math K-5 thoughtfully combines conceptual understanding, procedural fluency, and application. Each lesson is designed to tell a story by posing problems that invite a variety of approaches before guiding students to synthesize their understanding of the learning goals.

Scroll to learn more about the program and explore sample materials.

About the program

We believe in math that motivates. Our structured approach to problem-based learning builds on students’ curiosity to develop lasting grade-level understandings for all students. 

The program motivates students with interesting problems they are eager to solve. Teachers can spend more time where it’s most impactful: creating a collaborative classroom of learners.

A powerful suite of math resources

Amplify Desmos Math combines the best of problem-based lessons, intervention, personalized practice, and assessments into a coherent and engaging experience for both students and teachers.  Feel free to explore our grade-level ancillary samplers to learn more about assessment and reporting, intervention, and differentiation:

Grade K Ancillary Sampler

Grade 1 Ancillary Sampler

Grade 2 Ancillary Sampler

Grade 3 Ancillary Sampler

Grade 4 Ancillary Sampler

Grade 5 Ancillary Sampler

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Assessment

mCLASS® Assessments, along with daily formative checks, measure not only what students know, but how they think. The asset-based assessment system provides teachers with targeted, actionable insights, linked to core and intervention resources. Visit our mClass Math site to learn more.

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Core instruction

Amplify Desmos Math lessons pair problems students are eager to solve with clear instructional moves for teachers. With low-floor, high-ceiling tasks every student can actively participate and be a part of the math community. Unit- and lesson-level core assessments give teachers data at their fingertips to guide and differentiate instruction.

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Differentiation

Personalized Learning activities help students access grade-level math through engaging, independent digital practice. Responsive Feedback adjusts to students’ work, providing item-level adaptivity to further support their learning and offer personalized differentiation. Visit our Boost Math site to learn more. 

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Embedded intervention

Integrated resources like Mini-Lessons, Fluency Practice, and Math Adventures provide targeted intervention on a specific concept or skill connected to the daily lesson. Extensions are also available to stretch students’ understanding.

Multilingual Learners

To support multilingual/English learners, Amplify Desmos Math incorporates research-based Math Language Routines (MLRs) by providing language modality strategies like sentence frames where appropriate, both in the teacher language provided for each task and in the differentiation support section found throughout the program. For further information on math language development, please see pg. 82 of the Amplify Desmos Math Program Guide.

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Review Resources

To support your review of Amplify Desmos Math here are links to important K-5 review resources:

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K-5 sample materials

Click the links in the drop-down sections below to explore sample materials from each grade.  To see sample student responses, please click on the Teacher Edition pages and scroll to “Sample Student Work” (first one is about 30 pages in) or click on Intervention and Extension resources.   

For helpful navigation tips and more program information, download the Amplify Desmos Math Program Guide.

You can also watch a product expert walk through a lesson and the available program components.

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Program structure

Get to know the content and structure of Kindergarten Amplify Desmos Math.

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Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Counting and Comparing Objects.

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Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

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Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

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Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

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Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

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In this lesson, students apply their understanding of how to compare groups of images as they determine which group has more or fewer and then compare their strategies by guiding a bear through a path that has more mushrooms than the other.

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Program structure

Get to know the content and structure of Grade 1 Amplify Desmos Math.

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Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Story Problems in Maui.

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Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

Illustration of three children engaged in math activities from the "Amplify Desmos Math: Student Edition 1" textbook. One child holds a number card, while the others manipulate counters and images, experiencing an exciting approach inspired by New York math techniques.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

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Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

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Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

An educational game screen, inspired by New York math standards, shows a subtraction problem, "4 - 1," with a frog moving along numbered lily pads to reveal the answer "3.

In this lesson, students find differences when subtracting 1 and 2 from the same number by helping a frog reach a lily pad where it can eat a bug.

A curriculum overview for Grade 2 in New York Math displaying 8 units, including topics like comparisons, addition, subtraction, and geometric shapes, with details on the number of instructional and assessment days. This plan integrates resources from Amplify Desmos Math to enrich learning experiences.
Program structure

Get to know the content and structure of Grade 2 Amplify Desmos Math.

Cover of the "Amplify Desmos Math" Grade 2 Teacher Edition, showcasing children measuring with rulers and a poster displaying a mathematical equation, set against whimsical scenery with a colorful dragon. Perfect for New York math classrooms.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Adding and Subtracting.

Activity screen displaying a task to estimate the number of animals in an aquarium, featuring a bar chart for goldfish, frogs, and shrimp. Utilizing Desmos math tools, an illustration of an aquarium with various animals is also included to amplify learning.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

Cover of "Amplify Desmos Math Student Edition 2" showing three children performing a New York math activity with blocks and measurements.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of an educational book titled "Amplify Desmos Math Grade 2 Centers Resources" featuring a green "C" on a light green background, perfect for enhancing New York math education.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math Grade 2: Intervention and Extension Resources" featuring a green numeral 1 on a light green background, aligning with the New York math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

An educational activity where users must select the block with the correct number to make a total of 10 using the given block numbers. The UI, inspired by New York math standards, features a caterpillar and two tree stumps to amplify engagement with Desmos Math tools.

In this lesson, students find differences when subtracting 1 and 2 from the same number by helping a frog reach a lily pad where it can eat a bug.

An educational curriculum outline for Grade 3 with seven units covering various mathematics topics, including multiplication, shapes, fractions, and measurement. Suggested instructional days are provided. The New York Math approach ensures a thorough understanding of each concept.
Program structure

Get to know the content and structure of Grade 3 Amplify Desmos Math.

Cover of a "Grade 3 Amplify Desmos Math Teacher Edition" book, featuring a cutaway building with diverse students and a teacher working on New York math problems and organizing materials.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Concepts of Area Measurement.

Educational software displays a challenge to determine the area of an unpainted wall. The wall features a door and window with given dimensions, and a mouse pointer hovers near the question, amplifying the student's engagement.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

Cover of "Amplify Desmos Math Student Edition 3" showcasing illustrated children engaged in various mathematical activities inside a glass house structure, reflecting the dynamic energy of New York math.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of the Amplify Desmos Math Grade 3 Centers Resources book, featuring a 3D letter "C" in blue and white on a minimalistic background, perfect for aligning with New York math standards.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of an "Amplify Cover of the "Amplify Desmos Math" Grade 3 book featuring intervention and extension resources, with a blue geometric "I" on a light blue background, aligning with New York Math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

A page titled "Activity 2" features a table showing counts of rabbits, raccoons, and foxes, an image of animal stickers, and a bar graph representing the number of each animal, designed to amplify your New York math lesson with engaging visual data.

Students compare data represented on bar graphs with different scales by using animal stickers to create scaled bar graphs.

A course outline for Algebra 1 with 8 units, each detailing the number of instructional and optional days. The total suggested instructional days are 144 and 28 optional days, aligning with New York Math standards.
Program structure

Get to know the content and structure of Grade 4 Amplify Desmos Math.

Cover of "Amplify Desmos Math: Teacher Edition Grade 4" showing children learning New York Math outdoors, using large mathematical tools and numbers, with one child in a wheelchair.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Size and Location of Fractions.

Educational screen showing an interactive activity from Amplify Desmos Math where a user drags a point to cut a log into quarters. The progress is 2 out of 10.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

Cover of "Amplify Desmos Math, Student Edition, Grade 4," showcasing students collaborating on math problems involving shapes and numbers against a vibrant backdrop that blends cityscapes and natural scenery, capturing the essence of New York math learning.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover of the "Amplify Desmos Math" Grade 4 Centers Resources book, featuring a large, stylized blue letter "C" on a light blue background. This essential resource for New York math educators ensures engaging and effective instruction.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math, Grade 4: Intervention and Extension Resources," featuring a geometric illustration and a blue and orange color scheme inspired by New York math standards.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

Interactive educational activity asking users to determine platform heights using a 3-inch tube. The interface, inspired by Desmos math tools, features a dragging function and feedback system with a checkbox and "Try another" option, amplifying the learning experience.

Students choose tube lengths to connect to platform heights for hamster homes, identifying possible heights using what they know about multiples.

A Grade 5 curriculum scope and sequence chart with units covering volume, fractions, multiplication, shapes, place value, and measurement. Each unit lists instructional and assessment days to amplify Desmos Math activities.
Program structure

Get to know the content and structure of Grade 5 Amplify Desmos Math.

Illustration of three students engaging with various math activities outdoors and around large blocks. Text at the top reads "Amplify Desmos Math, Grade 5, Teacher Edition" - a perfect resource for New York math educators.
Teacher Edition pages

Planning and instructional guidance is visual, organized, and easy-to-follow. To help you review the program, we have included samples from a complete sub-unit on this site: Unit 2, Sub-Unit 1: Fractions as Quotients.

A digital activity prompt showing a scenic landscape with bamboo shoots and a panda. Using Desmos math tools, the task is to estimate the length where the third bamboo shoot should be placed for the panda to reach a leaf. This exercise is designed to amplify your understanding of spatial reasoning.
Digital experience

Explore our digital experience! Every lesson in Amplify Desmos Math has student print materials and digital recommendations.

Cover of "Amplify Desmos Math: Student Edition, Grade 5" featuring students engaged in various mathematical activities outside, such as block building, measuring, and gardening—a perfect resource aligning with New York math standards.
Student Edition pages

Motivate students with mathematics that is both rigorous and delightful.

Cover image of "Amplify Desmos Math Grade 5 Centers Resources" featuring a large purple letter C on a light purple background, showcasing the innovative approach of Amplify Desmos Math that's making waves in New York math education.
Centers Resources

Engaging, hands-on games for students to play collaboratively to strengthen their understanding of key skills and concepts.

Cover of "Amplify Desmos Math Grade 5: Intervention and Extension Resources," featuring a large, stylized number five in purple against a light purple background with minimal geometric patterns, ideal for New York math curriculum support.
Intervention and Extension Resources

Additional resources to reinforce and extend key concepts, including Mini-Lessons and Extensions.

An interactive screen showing an activity about decomposing a figure into prisms, with a touch of Desmos Math integration. The user is asked to drag points to demonstrate the decomposition. Two prism illustrations are displayed, offering a glimpse of New York Math's approach.

Students decompose a figure into rectangular prisms and determine the volume of the figure by adding the volumes of the individual prisms.

Contact Us

If you have any questions throughout your review process or need additional samples, please don’t hesitate to contact:

Alicia O’Neil

Account Executive

425-890-6103

aoneil@amplify.com

Request additional samples

Ready to learn more? Connect with an Amplify Desmos Math expert to request additional program samples.

Amplify Desmos Math California

Welcome, K–8 Reviewers!

We’re honored to introduce you to Amplify Desmos Math California. We’re confident you’ll find this comprehensive program to be a powerful tool for bringing the vision of the California Math Framework to life in classrooms across the state.

Please start with the video on the right to learn how to navigate the program and access key features referenced within our submission. Below you’ll find additional resources to support your review.

Your Review Samples

As a curriculum that incorporates both print and digital resources, it’s important that you explore both our physical materials (delivered to you in grade-specific tubs) and our digital materials (accessible through our platform). We invite you to explore both types of resources using the instructions and tips below.

Print Samples

Your print samples should have arrived in grade-specific tubs with a copy of two Reviewer binders. The K-5 Reviewer binder is contained within the Grade K shipping box and the Grade 6-8 Reviewer binder can be located in the Grade 6 shipping box. As you begin the process of organizing your materials, please refer to the inventory checklist found inside each tub as well as within your Reviewer Binder.

Digital Samples

In order to access your digital samples, you’ll need to log into our platform using your unique login credentials found on a Digital Access Flyer inside of your Reviewer Binder. Once you have located the flyer:

  • Click the orange button below to access the platform.
  • Click “Log in with Amplify.”
  • Enter the username and password provided on your Digital Access Flyer.
Digital Access

Navigation Tips

Below you will find helpful tips for navigating Amplify Desmos Math California. We recommend reading these pages alongside the program’s print materials and digital experience to gain a deeper understanding of the program. 

Click the links below to read about navigating program features including:

Built for California

The Amplify Desmos Math California program is designed around the vision articulated in the California Mathematics Framework to enable all California students to become powerful users of mathematics. Our program incorporates the latest research in student learning, meaning that we:

  • Focus on the Big Ideas: Amplify Desmos Math California’s courses, units, and lessons are centered around the Big Ideas. Big Ideas, like standards, are not considered in isolation. In addition to each unit and lesson’s focal Big Ideas, Amplify Desmos Math California also provides connections among the Big Ideas across units and lessons.
  • Center on open and engaging tasks: Amplify Desmos Math California is grounded in engaging tasks meant to address students’ often-asked question: “Why am I learning this?”  Students are invited into learning with low-floor, high-ceiling tasks that provide an entry point for all. Open tasks in Amplify Desmos Math California provide the space for students to try on multiple strategies and represent their thinking in different ways, and allow student explanation and discussion to serve as the center of the classroom. All lessons offer both print and digital representations of lessons.
  • Provide enhanced digital experiences: Amplify Desmos Math California includes digitally-enhanced lesson activities, incorporating interactive digital tools alongside print materials. These purposefully-placed resources allow students to visualize mathematical concepts, receive actionable feedback while practicing, encounter personalized learning support from an onscreen tutor, and engage in discussions about their thinking and approaches.
  • Treat core instruction and differentiation as integral partners: The Amplify Desmos Math California curriculum provides teachers with lessons, strategies, and resources to eliminate barriers and increase access to grade-level content without reducing the mathematical demand of tasks. Every activity has multiple entry points to ensure that all students are supported and challenged. Intervention and personalized learning activities are directly connected to lesson content and offer students the individualized support as they dive into the mathematics.

Category 1: Mathematics Content/Alignment with the Standards

Standards Maps

The links below provide the Standards Maps for Amplify Desmos Math California for each grade level.

Evaluation Criteria Map

Linked here is the Evaluation Criteria Map for grades K–8. Please note that you will need to be logged into the digital platform to access the links in the Evaluation Criteria Map.

Standards for Mathematical Practice

The links below provide the alignment of Amplify Desmos Math California to the Standards for Mathematical Practice at each grade level.

Drivers of Investigation and Content Connections

Amplify Desmos Math California incorporates the Drivers of Investigation (DIs) and Content Connection (CCs) throughout the program. Throughout the year, students engage with open and authentic tasks of varying durations — from lesson activities to unit-level Explore lessons and longer course-level Investigations. Every lesson and investigation opportunity is grounded around the why, how, and what of the learning experience, and helps teachers bring mathematical concepts to life. 

A three-column chart details: Drivers of Investigation, Standards for Mathematical Practice, and Content Connections, each with their respective codes and brief descriptions.

California English Language Development Standards

The links below provide the alignment of Amplify Desmos Math California to the California English Language Development Standards at each grade level.

California Environmental Principles and Concepts

Select lessons, performance tasks, and investigations across grade levels in Amplify Desmos Math California are aligned to one or more of the California Environmental Principles and Concepts. Click the links below to view how the California Environmental Principles and Concepts are represented in each grade level.

Category 2: Program Organization

Amplify Desmos Math California thoughtfully combines conceptual understanding, procedural fluency, and application. Each lesson is designed to tell a story by posing problems that invite a variety of approaches before guiding students to synthesize their understanding of the learning goals.

Big Ideas

Amplify Desmos Math California’s courses, units, and lessons are centered around the Big Ideas. In addition to each unit and lesson’s focal Big Ideas, Amplify Desmos Math California also provides connections among the Big Ideas across units and lessons. Please refer to Keeping the Big Ideas at the Center (linked below) for specific lesson designs and alignment with the Big Ideas for each grade level.

Program Structure

Amplify Desmos Math California combines the best of problem-based lessons, intervention, personalized practice, and assessments into a coherent and engaging experience for both students and teachers.

A diagram showing three stages: Core instruction, Integrated personalized learning, and Embedded intervention, under Screening and progress monitoring with daily tiered support.

Lessons and units in Amplify Desmos Math California are designed around a Proficiency Progression, a model that steps out problem-based learning by systematically building students’ curiosity into lasting grade-level understanding.

Five steps for learning: 1. Activate prior knowledge, 2. Collaborate, 3. Refine ideas, 4. Guide to understanding, 5. Practice and extend for lasting understanding.

In the Proficiency Progression, lessons begin by activating students’ natural curiosity and offering opportunities to generate new ideas through collaboration. Teachers are then able to refine ideas through intentional facilitation and guide students to grade-level understanding, while students retain the ability to use different strategies and methods to show their comprehension of the content. Students are provided ample opportunities to develop lasting understanding.

Scope and Sequence

Below you can view the scope and sequence for each grade level. 

A chart displaying seven kindergarten math units with themes, number of instructional days, and assessment days, totaling 136 suggested instructional days.
Grade 1 instructional units overview showing 7 units on math topics, total suggested days is 153, with each unit listing instructional and assessment days.
Grade 2 math curriculum map showing 8 units with topics, number of instructional and assessment days, and total days; suggested instructional days: 156.
Seven instructional units are shown, each with a title, icon, number of instructional and assessment days, and total days; a note suggests 150 instructional days in total.
A Grade 4 math curriculum overview showing seven units with titles, number of instructional days, and assessment days; the suggested total instructional days is 152.
A curriculum map displays seven math units with icons, titles, instructional days, and assessment days, totaling 149 suggested instructional days.
A chart showing Grade 6 math units, each with instructional days, assessment days, and optional days. Total suggested instructional days is 142, plus 19 optional days.
Overview of Grade 7 math curriculum units, showing unit titles, number of instructional, assessment, and optional days for each, with a total of 125 instructional days plus 22 optional days.
Eight illustrated cards display Grade 8 math units, each with the unit title, topics covered, number of instructional and assessment days, and a total of 131 suggested instructional days.
Curriculum chart showing eight units split into two volumes, with topics, instructional days, assessment days, and optional days listed for each unit over an accelerated 6th-grade year.
A chart displays the breakdown of Accelerated 7 math units, indicating topics, number of instructional days, assessment days, and optional days for each of the nine units across two volumes.

Lesson Design and Structure

A four-part diagram shows: Warm-Up, Activities with a graph of student ideas to grade-level understanding, Synthesis with notes, and Practice and differentiation with students building a structure.

Amplify Desmos Math California is designed with a structured approach to problem-based learning that systematically builds on students’ curiosity and allows students to grapple with the Big Ideas of the California Framework. Every lesson activity is organized into a Launch, Monitor, Connect format.

  • Launch: The launch is a short, whole-class conversation that creates a need or excitement, provides clarity, or helps students connect their prior knowledge or personal experience, which ensures that everyone has access to the upcoming work.  
  • Monitor: As students work individually, in pairs, or in groups, teachers explore student thinking, ask questions, and provide support to help move the conversations closer to the intended math learning goal. 
  • Connect: Teachers connect students’ ideas to the key learning goals of the lesson, facilitating class discussions that help synthesize and solidify the Big Ideas 

Each lesson within Amplify Desmos Math California follows the same structure. 

  • Warm-Up: Every Amplify Desmos Math California lesson begins with a whole class Warm-Up. Warm-Ups are an invitational Instructional Routine intended to provide a social moment at the start of the lesson in which every student has an opportunity to contribute. Warm-Ups may build fluency or highlight a strategy that may be helpful in the current lesson or act as an invitation into the math of the lesson.
  • Lesson Activities: Each lesson includes one or two activities. These activities are the heart of each lesson. Students notice, wonder, explore, calculate, predict, measure, explain their thinking, use math to settle disputes, create challenges for their classmates, and more. Guidance is provided to help teachers launch, monitor, and connect student thinking over the course of the activity.
  • Synthesis and Show What You Know: The Synthesis is an opportunity for the teacher and students to pull all the learning of the lesson together into a lesson takeaway. Students engage in a facilitated discussion to consolidate and refine their ideas about the learning goals, and the teacher synthesizes students’ learning. Show What You Know is a daily assessment opportunity for students to show what they know about the learning goals and what they are still learning.
  • Centers (K–5): Centers are hands-on activities for students in grades K–5 to play collaboratively to strengthen their understanding of key skills and concepts. In grades K–1, students have Daily Center Time built into every lesson. 
  • Practice and Differentiation: Daily practice problems for the day’s lesson are included both online and in the print Student Edition, including fluency, test practice, and spiral review.

Kindergarten–Grade 1

A lesson plan timeline showing phases: Warm-Up (5–10 min, whole class), Lesson Activities (25–30 min), Synthesis (10 min), Centers (15 min), and Practice (time varies).

Grades 2–5

A horizontal flowchart shows a classroom lesson sequence: Warm-Up (5–10 min), Lesson Activities (35 min), Synthesis (10 min), and Practice (time varies); groupings vary.

Grades 6–8

A horizontal timeline shows four lesson segments: Warm-Up (5 min), Lesson Activities (30 min), Synthesis (10 min), and Practice (time varies).

Routines

Amplify Desmos Math California features a variety of lesson routines. Instructional routines and Math Language Routines (MLRs) are used within lessons to highlight student-developed language and ideas, cultivate conversation, support mathematical sense-making, and promote meta-cognition. Both are called out at point-of-use within the Teacher Edition and Teacher Presentation Screens. Below are the types of routines used throughout the Amplify Desmos Math California curriculum:

Math Language Routines

  • MLR1: Stronger and Clearer Each Time
  • MLR2: Collect and Display
  • MLR3: Critique, Correct, Clarify
  • MLR5: Co-Craft Questions
  • MLR6: Three Reads
  • MLR7: Compare and Connect
  • MLR 8: Discussion Supports

Instructional Routines 

  • Decide and Defend
  • Notice and Wonder
  • Number Talk
  • Tell a Story
  • Think-Pair-Share
  • Which One Doesn’t Belong?

Category 3: Assessments

A variety of performance data in Amplify Desmos Math California provides evidence of student learning, while helping students bolster their skills and understanding.

Unit-Level Assessment

Amplify Desmos Math California has embedded unit assessments that offer key insights into students’ conceptual understanding of math. These assessments provide regular, actionable information about how students are thinking about and processing math, with both auto-scoring and in-depth rubrics that help teachers anticipate and respond to students’ learning needs.

  • Pre-Unit Check: Each unit in grades 2–8 begins with a formative assessment designed to identify the student skills that will be particularly relevant to the upcoming unit. This check is agnostic to the standards covered in the following unit and serves not as a deficit-based acknowledgment of what students do not know, but rather as an affirmation of the knowledge and skills with which students come in.
  • End-of-Unit Assessment: Students engage with rigorous grade-level mathematics through a variety of formats and tasks in the summative End-of-Unit Assessment. A combination of auto-scored (when completed digitally) and rubric-scored items provides deep insights into student thinking. All Amplify Desmos Math California End-of-Unit Assessments include two forms.
  • Sub-Unit Quizzes: Sub-Unit Quizzes are formative assessments embedded regularly in Grades Kindergarten through Algebra 1. In these checks, students are assessed on a subset of conceptual understandings from the unit, with rubrics that help illuminate students’ current understanding and provide guidance for responding to student thinking.
  • Sub-Unit Checklists: These checklists enable teachers to observe key skills and concepts that cannot be assessed on a pencil-and-paper assessment in Kindergarten–Grade 1. The checklists outline the supports students need to achieve mathematical growth and success.
  • Performance Tasks: At the end of each unit in grades 3–8, there is a summative assessment performance task provided to evaluate students’ proficiency with the concepts and skills addressed in the unit. 

Lesson-Level Assessments

Amplify Desmos Math California lessons include daily moments of assessment to provide valuable evidence of learning for both the teacher and student. Beyond formative, summative, and benchmark assessments, students also have opportunities for self-reflection with Watch Your Knowledge Grow. Students take ownership of their learning by reflecting and tracking their progress before and after each unit.

  • Show What You Know: Each lesson has a daily formative assessment focused on one of the key concepts in the lesson. Show What You Know moments are carefully designed to minimize completion time for students while maximizing daily teacher insights to attend to student needs during the following class. 
  • Responsive Feedback™: Teachers have the ability to see and provide in-the-moment feedback as students progress through a digital lesson. Responsive Feedback motivates students and engages them in the learning process.

Diagnostic Assessment

Every grade level features an asset-based diagnostic assessment designed to be administered at the beginning of the year.  Delivered digitally and to the whole class, our diagnostic assessment is uniquely designed to reveal underlying math thinking and identify what students know about grade-level math. With data beyond just right and wrong, teachers have the type of deeper level of insights need to take the right next step.

CAASPP-Aligned Assessment Preparation

Amplify Desmos Math is designed to support students’ mathematical development through problem-based learning, differentiation, and embedded assessments. The program’s emphasis on conceptual understanding, procedural fluency, and application aligns with the mathematical practices and content standards assessed by the CAASPP.

Amplify Desmos Math California includes a CAASPP-aligned Item Bank. This standards-aligned bank of questions allows teachers to filter and search by grade and standard to find items. Once assigned on the digital platform, students will experience CAASPP-like practice with the online digital tools.

Data and Reporting

Amplify Desmos Math California provides teachers and administrators with unified reporting and insights so that educators have visibility into what students know about grade-level math—and can plan instruction accordingly for the whole class, small groups, and individual students. Reporting functionality integrates unit assessments, lesson assessments, diagnostic data, and progress monitoring for a comprehensive look at student learning. Program reports show proficiency and growth by domain, cluster, standard, and priority concept using performance data from unit assessments, then highlight areas of potential student need to allow teachers to modify their instruction and target differentiated support.

Administrator reporting provides a complete picture of student, class, and district performance, allowing administrators to implement instructional and intervention plans.

Category 4: Access and Equity

The Amplify Desmos Math California curriculum provides teachers with lessons, strategies, and resources to eliminate barriers and increase access to grade-level content without reducing the mathematical demand of tasks. Our lessons are developed using the Universal Design for Learning (UDL) framework to proactively ensure that all learners can access and participate in meaningful, challenging learning opportunities.

Every activity has multiple entry points to ensure that all students are supported and challenged. Intervention and personalized learning activities are directly connected to the day’s content and offer students the individualized supports they need to be successful.

Each lesson and unit contains guidance for teachers on how to identify students who may need support, students who need to keep strengthening their understanding, and students who may be ready to stretch their learning. In addition, teachers are provided with recommendations for resources to use with each group of students.

Universal Design for Learning

Each lesson in the program incorporates opportunities for engagement, representation, action, and expression based on the guidelines of Universal Design for Learning (UDL).

  • Multiple Means of Engagement: Students engage in both print and digital learning, and are regularly participating in discussions and hands-on activities. Students are invited to build their own challenge for other students to solve, which provides opportunities for choice and
    autonomy, as well as joy and play.
  • Multiple Means of Representation: Students are encouraged to demonstrate their learning using mathematical representations, both print and digital, and regularly engage with their peers in analyzing multiple possible solutions. Classes engage in open-ended discussions about what individual students notice and wonder about mathematical concepts.
  • Multiple Means of Action and Expression: Learners differ in how they navigate learning environments and express what they know. Students can communicate their ideas in multiple ways, including in print, sketching, uploading photos, or recording an audio response.

Accessibility

Lesson facilitation supports

Every lesson includes at least one specific suggestion the teacher can use to increase access to the lesson without reducing the mathematical demand of the tasks. These suggestions address the following areas:

  • Visual-spatial processing
  • Conceptual processing
  • Executive functioning
  • Memory and attention
  • Fine motor skills

Accessibility tools

Students have the ability to control accessibility tools so that each learning experience is customized to their individual needs. In many instances, these tools can be turned on or off at any point of instruction.

  • Text to speech: Reads text instructions to students in multiple languages
  • Enlarged font: Increases the size of all text on screen
  • Braille mode: Includes narration of digital interactions
  • Language selection: Toggles between languages

Differentiation: In-Lesson Teacher Moves

Within every lesson activity, teachers can use the suggestions in the Differentiation Teacher Moves table to provide in-the-moment instructional support while students are engaged in the work of the lesson. This table can help teachers anticipate the ways students may approach the activity, and provides prompts that they can use during the lesson to Support, Strengthen, and Stretch individual students in their thinking. Teachers are provided with clear student actions and understanding to look for, each matched with immediately usable suggestions for how to respond to the student thinking illustrated in each row of the table. In addition to using these suggestions in the moment as teachers monitor student work, teachers can review the Differentiation table in advance to help them anticipate how students are likely to approach the activity.

A table showing differentiation teacher moves with examples of representing groups in different ways, support prompts, and a stretch question about patterns with more teams.

Differentiation: Beyond the Lesson

Teachers are provided with recommendations for resources to use with each group of students needing support, strengthening, and stretching after each lesson. Support, Strengthen, and Stretch resources include:

  • Mini-Lessons: 15-minute, small-group direct instruction lessons targeted to a specific concept or skill
  • Item Banks: Space for teachers to create practice and assessments by using filters and searching for standards, summative-style items, and more
  • Fluency Practice: Adaptive, personalized practice built out for basic operations and more
  • Centers (K–5): Lesson-embedded routines and practice for students that are vertically aligned across grade levels
  • Extensions: Lesson-embedded Teacher Moves including possible stretch questions and activities for students
  • Lesson Practice: Additional practice problems support every lesson
  • Math Adventures: Strategy-based math games where students engage with math concepts and practice skills in a fun digital environment
  • Lesson Summary Support: Support for students and caregivers that provides efficient explanation of the learning goal with clear examples

Math Identity and Community

The Math Identity and Community feature supports teachers in helping students build confidence in their own mathematical thinking, develop skills to work with and learn from others when doing math, and learn how math is an interwoven part of their broader community. The embedded prompts throughout the lessons are designed to highlight what it means to be good at math, the value of sharing ideas, and the power of flexible and creating thinking. Here are some examples of the Math Identity and Community supports embedded in each lesson:

  • I can be all of me in math class. You will work with partners every day in math class. What do you want your partners to know about you? 
  • We are a math community. What does good listening look like and sound like in a math community? 
  • I am a doer of math. What math strengths did you use today?

Unit Stories

Every unit in grades K–5 contains a Unit Story. These Unit Stories are brief fiction stories read aloud by the teacher at the beginning of each unit that connect to the math of the unit and introduce characters that students will get to know as they engage in the unit. Teachers read the story aloud from their Teacher Edition while projecting illustrations for students from the story, found in the Teacher Presentation Screens for the story. Across the unit, the Unit Story context and characters are used at appropriate points to inspire and engage students in the math as well as in reflections about their math identity and community.

Math Language Development

Every lesson in Amplify Desmos Math California includes opportunities for all students to develop mathematical language as they experience the content. Amplify Desmos Math California purposefully progresses language development from lesson to lesson and across units by supporting students in making their arguments and explanations stronger, clearer, and more precise. This systematic approach to the development of math language can be broken down into the following four categories of support:

  • Vocabulary: Units and lessons start by surfacing students’ language for new concepts, then building connections between their language and the new vocabulary for that unit. This honors the language assets that students bring into their learning.
  • Language goals: Language goals attend to the mathematics students are learning, and are written through the lens of one or more of four language modalities: reading, writing, speaking, and listening.
  • Math Language Routines: Math Language Routines are used within lessons to highlight student-developed language and ideas, cultivate conversation, support mathematical sense-making, and promote meta-cognition.
  • Multilingual/English learner supports: Supports for multilingual/English learners (ML/ELs) are called out at intentional points within each lesson. These specific, targeted suggestions support ML/ELs with modifications that increase access to a task, or through development of contextual or mathematical language (both of which can be supportive of all learners). 

Multilingual and English Learner Supports

Partnership with English Learner Success Forum

Amplify partnered with the English Learner Success Forum (ELSF), a national nonprofit organization that advocates for high-quality instructional materials that are inclusive of multilingual learners. ELSF reviewed Amplify Desmos Math California, and provided directional guidance and feedback to ensure that the program reflects their research-based instructional strategies for multilingual/English learners.

Math Language Development Resources

Our Math Language Development Resources book contains lesson-specific strategies and activities for all levels of English Learners (i.e., Emerging, Expanding, Bridging). With support for every lesson, teachers are empowered to help all students, regardless of their language skills, to participate fully, grasp the material, and excel in their mathematical journey.

Multilingual Glossary

Amplify Desmos Math California includes a digital glossary for languages other than Spanish. Translations will be provided for up to nine languages.

Spanish Version

Amplify Desmos Math California will include Spanish student-facing materials beginning in the 2026–27 school year.

Category 5: Instructional Planning and Support

Amplify Desmos Math California includes a variety of embedded instructional supports to empower teachers to lead effectively and gain actionable insights into student growth and progress. Teachers are equipped with a comprehensive set of resources designed to fulfill the requirements of Category 5.

Grade-level concepts

Within the Teacher Edition front matter:

  • Scope and sequence
  • Big Ideas, Drivers of Investigation, and Content Connections
  • Grade level standards
  • Standards for Mathematical Practice
  • English Language Development Standards
  • Environmental Principals and Concepts

Within each Unit and Sub-Unit Overview:

  • Big Ideas, Drivers of Investigation, and Content Connections
  • Math that Matters Most
  • Grade level standards
  • Standards for Mathematical Practice
  • English Language Development Standards
  • Environmental Principals and Concepts

Within each Lesson:

  • Big Ideas, Drivers of Investigation, and Content Connections
  • Grade level standards
  • Standards for Mathematical Practice
  • English Language Development Standards
  • Environmental Principals and Concepts

How to implement the program

At the course level (within the Teacher Edition front matter):

  • Navigating the Program (both print and digital)
  • Facilitating Lesson Activities with Launch, Monitor and Connect
  • Overview of the Digital Facilitation Tools

At the lesson level:

  • Suggestions for timing
  • What materials to prep
  • How to organize and group students 
  • Key lesson takeaways with the Synthesis
  • Recommendations for Differentiation
  • Strategies for intervention and extensions (in the Intervention, Extensions, and Investigation Resources book)

At the activity level:

  • Differentiation recommendations
  • Accessibility tips
  • ML / EL tips
  • Teacher look-fors
  • Recommended Teacher Moves
  • Prompts for guiding student thinking 
  • Sample student responses

Development of Math Language

A variety of language development supports are provided within the Student and Teacher Editions and Math Language Development Resources book. 

At the lesson level:

  • Diagrams and visuals
  • Sentence frames and word banks
  • Graphic organizers, including Frayer models
  • Vocabulary routines
  • Embedded language supports aligned to the CA ELDs
  • Lesson-specific strategies for Emerging, Expanding, and Bridging

At the unit level: 

  • Words With Multiple Meanings
  • Contextual vocabulary

At the course level:

  • English/Spanish cognates
  • Multilingual Glossary 

Other Curriculum Guidance

  • Additional Practice Resources book
  • Assessment Resources book 
  • Assess and Respond guidance paired with each assessment opportunity
  • Show-What-You-Know activities
  • Answer keys and rubrics 
  • Performance tasks

Amplify Science – Oklahoma

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Welcome to Amplify Desmos Math California!

California educators, welcome to math that motivates. Introducing Amplify Desmos Math California, a curiosity-driven TK–12 program that builds lifelong math proficiency. Each lesson poses problems that invite a variety of approaches before guiding students to synthesize their understanding of the learning goals. Students encounter math problems they’re eager to solve, while teachers spend more time where it’s most impactful—creating a collaborative classroom of learners.

Keep reading to learn more about the program and explore sample materials.

About the program

Amplify Desmos Math California is a TK–12 core math program designed to meet the CA Math Framework and the Common Core State Standards for Mathematics. Amplify Desmos Math California thoughtfully combines conceptual understanding, procedural fluency, and application through a structured approach to problem-based learning. Through engaging activities, Amplify Desmos Math California invites curiosity and math discourse into the classroom to create lifelong math proficiency.

Continue reading to learn more about the K–8, Algebra 1, and Math 1 programs and to explore sample materials. (Spanish, TK and high school materials are in development and will be available in the 2026–27 school year. Geometry and Algebra 2 beta pilots will be available in the 2025–26 school year.)

A powerful math suite

Amplify Desmos Math California combines the best of assessment, problem-based core lessons, personalized practice, and intervention into a coherent and engaging experience for both students and teachers.

Laptop displaying a math problem interface with student assessment reports in the background.

Screening and progress monitoring

mCLASS Math benchmark assessments, along with the embedded program assessments, measure not just what students know, but how they think. The asset-based assessment system provides teachers with targeted, actionable insights, linked to core instruction and intervention resources. Unit- and lesson-level core assessments give teachers data at their fingertips to guide and differentiate instruction. In grades 3–8, core assessments and performance tasks are designed to prepare students for success on the Smarter Balanced Assessment Consortium (SBAC) testing.

Core instruction

Amplify Desmos Math California core lessons pair problems students are eager to solve with clear instructional moves for teachers. Each lesson is designed to tell a story by posing problems that invite a variety of approaches before guiding students to synthesize their understanding of the learning goals. With built-in differentiation and multilingual/English learner support, Amplify Desmos Math California enables every student to find success in the math classroom.

A digital math activity asks users to choose a block that makes 10 with a given number; a worksheet shows a similar "make 10" math exercise with blank spaces to fill in.
A digital educational screen showing a math problem about converting meters to centimeters. It involves a diving toy sinking 5 meters into a pool. Text prompts users to input the conversion.

Personalized Learning

Boost Personalized Learning activities help students access grade-level math through engaging, independent digital practice. Responsive Feedback adjusts to students’ work, providing item-level adaptivity to further support their learning.

Differentiation and intervention

Amplify Desmos Math views differentiation as an ongoing process where teachers are both reactive and proactive to student needs, ensuring that all students have clear pathways to proficiency. Through rich data and teacher support, Amplify Desmos Math uses flexible categories of intervention and enrichment that adjust daily according to student thinking.

In-the-moment differentiation supports are available for every lesson, both digitally and in the print Teacher Edition.

Learn more
Two pages of a math worksheet and teacher’s guide about determining coordinates after a rotation, featuring diagrams, tables, and step-by-step problem-solving instructions.

An approach that supports teachers

Clear, step-by-step instructional moves help teachers plan and teach student-centered lessons that use
student thinking to differentiate instruction and guide to grade-level understanding. They include:

  • Guidance on what to listen for and how
    to respond.
  • Clear learning objectives to keep learning on
    track for each activity and lesson.
  • Daily reinforcement activities to provide direct
    instruction when needed.
A woman writes on a whiteboard using math teaching resources while a man sits at a desk, smiling. There are books and papers on the desk.
Network diagram with interconnected nodes labeled: Measure and Compare Objects, Represent Data, Dollars and Cents, Problem Solving with Measure, Skip Counting to 100, Number Strategies, Squares in an Array, Seeing Fraction in Shapes.

Big Ideas

The CA Mathematics Framework encourages a shift from power standards to thinking about math as a series of connected Big Ideas. Each Amplify Desmos Math California lesson supports one or more Big Ideas and the connections between them. The grade-level diagram changes through the course based on the math concepts addressed within.

Please refer to the following Keeping the Big Ideas at the Center documents to review specific lesson designs and alignments with the Big Ideas for each grade level.

Click here to see how the Big Ideas are represented within the K–8 core lessons.

Focus, coherence, and rigor

Amplify Desmos Math California incorporates the Drivers of Investigation (DIs) and Content Connection (CCs) throughout the program. Throughout the year, students engage with open and authentic tasks of varying durations—from lesson activities to unit-level Explore lessons and longer course-level Investigations. Every lesson and investigation opportunity is grounded in the why, how, and what of the learning experience, and helps teachers bring mathematical concepts to life.

An educational slide on addition story problems, detailing goals for solving problems, language goals, and strategies using equal expressions, tens and ones, and number sense.

Please refer to the following Amplify Desmos Math California alignments to the Standards for Mathematical Practice, provided by grade level.

A screen titled "Match the Score" with a 2D target graph showing various scores. Instructions request four ordered pairs to total 400. Four pairs are listed: (4, 2), (7, 4), (7, 6), (10, 6). A "Try again" button is shown.

Built-in authentic tasks

Mathematics is not learning in isolation. Students are connected to each other’s thinking and can use math to understand the world. With accessible invitations to authentic tasks, all students can experience mathematical success. Amplify Desmos Math California provides these authentic invitations in a variety of ways:

Each unit begins with an “Explore” lesson, which allows students to engage with authentic exploration in low-floor, high-ceiling tasks. These tasks are designed to promote an inclusive and differentiated learning environment—allowing all students to access basic mathematical concepts, while offering advanced exploration and problem-solving for those ready for more complex work.

Our innovative course-level investigations are designed to facilitate multi-part exploration. Students grapple with Big Ideas, diving deep into key concepts that encourage comprehensive understanding. Data science is infused into the approach, giving students a solid foundation from which to interpret and apply data-driven solutions. They’re also encouraged to understand and appreciate the interrelatedness of Earth’s environmental systems via our lesson’s focus on the Environmental Principles and Concepts (EP&Cs).

Explicit support for multilingual/English learners

Three overlapping educational worksheets for first grade math, including a cover page, a list of learning goals, and a lesson plan with bilingual English and Spanish text.

Amplify partnered with the English Learner Success Forum (ELSF), a national nonprofit organization that advocates for high-quality instructional materials that are inclusive of multilingual/English learners (ML/ELs). ELSF reviewed Amplify Desmos Math California, and provided directional guidance and feedback to ensure that the program reflects their research-based instructional strategies for multilingual/English learners.

Amplify Desmos Math California recognizes the diverse language needs of our students and is designed to be inclusive. Each lesson in the program features a parallel language activity, designed to be available to all students, in the form of teacher guidance and student activities. The activities in the Math Language Development Resources have level ELD differentiation to support all levels of ML/ELs. This approach ensures that all students, regardless of their language skills, can participate fully, grasp the material, and excel in their mathematical journey.

Our Multilingual Glossary includes, in addition to Spanish, nine languages: Simplified Mandarin, Tagalog, Vietnamese, Arabic, European French, Russian, Brazilian-Portuguese, Haitian-Creole, and Urdu.

Amplify Desmos Math California will include Spanish student-facing materials beginning in the 2026–27 school year.

Assessments

By starting with what students already know, Amplify Desmos Math helps build a strong foundation for success to guide and support future learning. Teachers are empowered to transform every classroom into an engaged math community that invites, values, and develops student thinking. With explicit guidance on what to look for and how to respond, teachers can effectively support students as they develop their understanding.

Open math workbook showing an End-of-Unit Assessment with multiple-choice and written response questions on fractions and equivalent values.

Program assessments

A variety of performance data in Amplify Desmos Math provides evidence of student learning while helping students bolster their skills and understanding.

Unit-Level Assessments

Our embedded unit assessments offer key insights into students’ conceptual understanding of math. These assessments provide regular, actionable information about how students are thinking about and processing math, with both auto-scoring and in-depth rubrics that help teachers anticipate and respond to students’ learning needs.

Lesson-Level Assessments

Amplify Desmos Math lessons are centered around sense-making and in-the-moment feedback. Daily moments of assessment provide valuable evidence of learning for both the teacher and student.

Learn more

Data and reporting

Amplify Desmos Math provides teachers and administrators with unified reporting and insights so that educators have visibility into what students know about grade-level math—and can plan instruction accordingly for the whole class, small groups, and individual students.

A table displays students' performance levels across various items, with a detailed score distribution for a specific assessment shown in a separate overlay. Geometric design elements accented the background, providing an engaging visual touch ideal for any math classroom using Amplify Desmos Math.

Assessment reports

Reporting functionality integrates unit assessments, lesson assessments, personalized learning, Benchmark assessments, and Progress Monitoring for a comprehensive look at student learning.

Our reports show proficiency and growth by domain, cluster, standard, and priority concept using performance data from unit assessments. Then our reports highlight areas of potential student need to allow teachers to modify their instruction and target differentiated support.

At-a-glance views of unit-level assessment results inform your instructional planning, and you can also drill down to item-level analysis.

Standards reports

Our standards report allows you to monitor proficiency at the class and individual student levels. Proficiency and growth are shown by domain, cluster, standard, and priority concepts. Areas of potential student need are highlighted to allow teachers to modify their instruction and target differentiated support.

Administrator reports

Amplify Desmos Math provides a complete picture of student, class, and district performance, allowing administrators to implement instructional and intervention plans.

  • Track student, class, and district performance with usage, completion, and assessment data.
  • Accurately group students and classes with the Benchmark and Progress Monitoring data of mCLASS Assessments and allow teachers to reliably implement and track the progress of Tier 2 and Tier 3 intervention.
  • Provide one data-driven solution that educators can rely on for high-quality math instruction.

Elementary review resources

To learn about the elementary program, please start by watching the Amplify Desmos Math California Elementary Program Overview video.

For additional program information and helpful navigation tips, download the Amplify Desmos Math California Elementary Program Guide.

View the Elementary Program Components Guide here. 

View the Hands-on manipulatives brochure here.

Middle School review resources

To learn about the middle school program, please start by watching the Amplify Desmos Math California Middle School Program Overview video.

For additional program information and helpful navigation tips, download the Amplify Desmos Math California Middle School Program Guide.

View the Middle School Program Components Guide here.

View the middle school manipulative kit components here.

The digital experience

In Amplify Desmos Math, embedded interactions and animations allow students to test predictions, get feedback, share ideas, and connect representations.

The digital interactions included in lesson activities are designed to elicit student thinking in a way that feels fun and inviting. As students play and explore math concepts, teachers can highlight the ideas that students share, connect those ideas to other students’ ideas, and build on their thinking through productive class discussion.

Watch the video to preview the digital experience and for helpful platform navigation tips.

A laptop displays a math activity about platform heights and tube length, while a worksheet titled "Hamster Homes" is visible in the background.

Explore grade level samples

All lessons in Amplify Desmos Math California include print materials and rich digital experiences. Every lesson is supported with Student Edition pages, teacher presentation screens, and interactive digital resources for practice and differentiation. Some lessons also enable students to use devices to interact with lesson content.

You’ll find sample materials by grade level in the following drop-downs. Please refer to your physical samples and the digital platform (accessed through the demo account provided by your account executive) for a comprehensive program review.

Screenshot of a kindergarten curriculum outline featuring units like Math in Our World, Numbers 1-10, Positions and Shapes, Understanding Addition, Making 10, and Shapes All Around Us. This comprehensive program utilizes New York Math standards to build foundational skills.
Scope and sequence
Cover of Amplify Desmos Math Grade K Teacher Edition featuring three children playing with math-related objects and a group of rabbits sitting nearby, aligning with the engaging curriculum seen in New York math classrooms.
Teacher Edition
Three children use large counters and a vertical frame to solve a math problem outdoors, with a fourth child sitting nearby. The cover is labeled "Amplify Desmos Math California, Kindergarten, Volume 1.
Student Edition
Cover of "Amplify Desmos Math California Grade K" featuring a 3D letter "L" and section about Math Language Development Resources.
Math Language Development Resources
A curriculum overview for Grade 1 with seven units listed, each showing a title, instructional days, assessment days, and total days. Suggested days for completion is 154.
Scope and sequence
Three children play a math game with orange counters and cards. Fish and turtles are pictured above them. The book cover is labeled "Amplify Desmos Math California, Grade 1 Teacher Edition.
Teacher Edition
Three children use counters and cards to solve a math activity underwater, with fish and seaweed in the background. The cover is for Amplify Desmos Math California, Grade 1, Volume 1.
Student Edition
Cover of a Grade 1 Amplify Desmos Math California resource featuring a yellow block letter "L" and a label for math language development resources.
Math Language Development Resources
Scope and sequence chart for Grade 2 shows eight instructional units with titles, illustrated icons, days per unit, and assessment days listed in a grid format on a white background.
Scope and sequence
Cover of a Grade 2 math textbook showing a teacher and two students measuring a number line and holding a sign that reads "120 in." with math visuals in the background.
Teacher Edition
Three children measure and mark a path on the ground with a ruler and tape, next to a large green base ten block and a 120-inch sign, on a math textbook cover.
Student Edition
Cover of Amplify Desmos Math California Grade 2 Math Language Development Resources, featuring a green geometric "L" and a list of included supports for language learners.
Math Language Development Resources
A table displays a Grade 3 math curriculum outline with six units, each showing unit topics, number of instructional and assessment days, and total days per unit.
Scope and sequence
Illustration of four children in a two-story house doing math activities; one holds "3 x 2," another “3 x 3,” another “3 x 5,” and one paints a wall. Grade 3 math teacher edition cover.
Teacher Edition
Illustration of four children in a house-like structure, one painting, one holding a book, one holding a math sign, and one reading, on the cover of a math textbook labeled "Grade 3.
Student Edition
Cover of "Amplify Desmos Math California Grade 3" featuring a 3D geometric shape, blue accents, and a section describing included resources for math language development.
Math Language Development Resources
A curriculum overview for Grade 4 showing seven math units with titles, illustrations, instructional days, and pacing details, organized in a grid layout.
Scope and sequence
Four children, one in a wheelchair, interact with math symbols and measurements outdoors, overseen by a teacher. The cover reads "Amplify Desmos Math California, Grade 4, Teacher Edition.
Teacher Edition
Four children stand and work around a large plant and number tiles outdoors, with one child in a wheelchair and another holding a clipboard. The cover reads "Amplify Desmos Math California 4.
Student Edition
Cover of the Amplify Desmos Math California Grade 4 Math Language Development Resources, featuring a blue geometric "L" shape and a description box in the bottom left corner.
Math Language Development Resources
A Grade 5 math curriculum overview showing six units, each with instructional days and assessment information, arranged in a grid on a white background.
Scope and sequence
Cover of a 5th grade math teacher edition book showing children interacting with math concepts outdoors, including measuring, drawing, and stacking cubes.
Teacher Edition
Cover of "Amplify Desmos Math California Student Edition 5, Volume 1" featuring students engaging in math activities outdoors and one standing on colorful cubes holding a "Grade 5" sign.
Student Edition
Cover of Amplify Desmos Math California Grade 5 Math Language Development Resources, featuring a 3D letter "L" and a brief description of included supports.
Math Language Development Resources
Grade 6 math curriculum chart showing eight units with titles, instructional days, assessment days, optional days, and icons for each unit. Suggested days: 143 out of 147 instructional days.
Scope and sequence
Illustration of children outdoors interacting with oversized math symbols and objects. Text reads "Amplify Desmos Math California Teacher Edition, Grade 6, Volume 1.
Teacher Edition
Illustrated cover of "Amplify Desmos Math California Student Edition, Grade 6, Volume 1" showing students interacting with math symbols in an outdoor setting.
Student Edition
Cover of Amplify Desmos Math California Grade 6 book featuring a 3D geometric “L” shape and a description of included math language development resources.
Math Language Development Resources
Grade 7 math curriculum map with eight units, each showing topic, days per unit, and breakdown of instructional and assessment days. Suggested total days: 124.
Scope and sequence
Illustration of people interacting with geometric shapes, city buildings, and a crane on a cover titled "Amplify Desmos Math California, Grade 7, Teacher Edition, Volume 1.
Teacher Edition
Illustrated cover of "Amplify Desmos Math California Student Edition 7, Volume 1," showing people constructing geometric shapes and mathematical tools in a cityscape.
Student Edition
Cover of the "Amplify Desmos Math California Grade 7" resource, featuring a purple 3D geometric "L" shape and informational text about language development resources.
Math Language Development Resources
Grade 8 math curriculum overview with nine units displayed in a grid; each unit lists instructional days, assessment days, and total days.
Scope and Sequence
Illustration of children at a playground with adults, working on math activities near water tanks and a slide. The cover reads "Amplify Desmos Math California, Grade 8, Teacher Edition, Volume 1.
Teacher Edition
Illustration of children playing on and around a slide with geometric shapes and graphs, on the cover of a math textbook labeled "Amplify Desmos Math California, Student Edition, Grade 8.
Student Edition
Cover of "Amplify Desmos Math California Grade 8" featuring a 3D geometric letter "L" and a list of included math language development resources.
Math Language Development Resources
A curriculum overview for Algebra 1 with eight units, each showing a title, number of instructional and assessment days, and simple illustrative icons. Total suggested days: 153.
Scope and Sequence
Illustration of people interacting with algebraic graphs, grids, and mathematical tools, with others exploring underwater and a map of California in the corner. Text reads "Amplify Desmos Math California.
Teacher Edition
Cover of a California Amplify Desmos Math A1 Student Edition book showing people interacting with mathematical graphs and underwater divers observing marine life.
Student Edition
Cover of "Amplify Desmos Math California Algebra 1 A1 Math Language Development Resources" featuring a 3D geometric "L" shape and text describing included resources.
Math Language Development Resources
A curriculum chart displays seven math units, each listing instructional and assessment days; the suggested total is 138 days, with titles like Patterns and Sequences and Linear Equations.
Scope and sequence
Cover of "Amplify Desmos Math California Teacher Edition, Math 1 Volume 1" with illustrated people interacting with geometric shapes and graphs.
Teacher Edition
Cover of the "Amplify Desmos Math California Student Edition Volume 1" featuring people interacting with math symbols and geometric shapes in a stylized, modern landscape.
Student Edition
Cover of "Amplify Desmos Math California Math 1," featuring a geometric L-shaped figure and a blue header labeled "Math Language Development Resources.
Math Language Development Resources

Scope and Sequence

Math 2–3 is currently being developed and will be available in the 2026–27 school year.

Cover of "Amplify Desmos Math California Teacher Edition GEO Volume 1" featuring abstract geometric illustrations and people engaged in mathematical activities.
Scope and Sequence (National Edition)

The Amplify Desmos Math Geometry Beta National Edition is available for piloting in the 2025–26 school year. Amplify Desmos Math California Geometry will be available in the 2026–27 school year.

Cover of "Amplify Desmos Math California Geo Volume 1 Student Edition" featuring geometric shapes and small illustrated people interacting with mathematical elements.
Geometry sampler

This sampler includes Teacher Edition front matter for program overview information, plus Teacher Edition and Student Edition pages for Units 1–2.

Cover of "Amplify Desmos Math California A2 Teacher Edition," featuring a Ferris wheel, math graphs, and students interacting with mathematical concepts.
Scope and sequence (National Edition)

The Amplify Desmos Math Algebra 2 Beta National Edition is available for piloting in the 2025–26 school year. Amplify Desmos Math California Algebra 2 will be available in the 2026–27 school year.

Cover of "Amplify Desmos Math California Student Edition A2 Volume 1" featuring mathematical graphs, a Ferris wheel, and students interacting with math concepts.
Algebra 2 sampler

This sampler includes Teacher Edition front matter for program overview information, plus Teacher Edition and Student Edition pages for Units 1–2.

Contact us

For questions, samples, or more information, please contact your local Amplify account executive:

Erin King
Sales Director, CA
(512) 736-3162
eking@amplify.com

Northern CA
Wendy Garcia
Senior Account Executive
(510) 368-7666
wgarcia@amplify.com

Bay Area
Lance Burbank
Account Executive
(415) 830-5348
lburbank@amplify.com

Central Valley and Central Coast
Demitri Gonos
Senior Account Executive
(559) 355-3244
dgonos@amplify.com

Ventura and L.A. County
Jeff Sorenson
Associate Account Executive
(310) 902-1407
jsorenson@amplify.com

Orange and L.A. County
Lauren Sherman
Senior Account Executive
(949) 397-5766
lsherman@amplify.com

San Bernardino and L.A. County
Michael Gruber
Senior Account Executive
(951) 520-6542
migruber@amplify.com

Riverside and L.A. County
Brian Roy
Senior Account Executive
(818) 967-1674
broy@amplify.com

San Diego County
Kirk Van Wagoner
Senior Account Executive
(760) 696-0709
kvanwagoner@amplify.com

Under 2300 students in Bay Area, Sacramento Valley, and Northern Counties
Kevin Mauser
Lead Account Executive
(815) 534-0148
kmauser@amplify.com

Under 2300 students in Southern CA, Central Coast, and Southern Central Valley Counties
Charissa Snyder
Account Executive
(720) 936-6802
chsnyder@amplify.com

Inspiring the next generation of Oklahoma scientists, engineers, and curious citizens

Amplify Science is an engaging new core curriculum designed for three-dimensional, phenomena-based learning.

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

Our Instructional Model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit, from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation, and importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Resources to support your review

Remote and hybrid learning supports

Oklahoma remote and hybrid overview video

Amplify has launched a new remote learning solution called Amplify Science@Home. Intended to make extended remote learning and hybrid learning easier, Amplify Science@Home includes two useful options for continuing instruction: @Home Videos and @Home Units. 

Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home. These videos will be produced for all K–5 units, and for the first four units of each 6–8 grade level. Their release will be rolling, beginning in August.   

Amplify Science@Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @Home Units will be developed for all Amplify Science K–8 units. Each @Home unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available.
  • Overviews to send home to families.

Student materials are available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home.
  • Downloadable @Home Packets (PDF) for students without access to technology at home.

Download the Remote and hybrid learning guide.

What’s included

Flexible resources that work seamlessly together

Science articles
The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Student Investigation Notebooks
Available for every unit, the Student Investigation Notebooks provide space for students to:

  • Record data
  • Reflect on ideas from texts and investigations
  • Construct explanations and arguments

Available with full-color article compilations for middle school units.

Digital student experience
Students access the digital simulations and modeling tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • Conduct hands-on investigations
  • Engage in active reading and writing activities
  • Participate in discussions
  • Record observations
  • Craft end-of-unit scientific arguments

Teacher’s Guides
Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • Classroom Slides
  • Detailed lesson plans
  • Unit and chapter overview documentation
  • Differentiation strategies
  • Standards alignments
  • In-context professional development

Hands-on materials kits
Hands-on learning is at the heart of Amplify Science. Each unit kit contains:

  • Consumable and non-consumable hands-on materials
  • Print classroom display materials
  • Premium print materials for student use (sorting cards, maps, etc.)

Scope and sequence

GRADE
UNIT
Kindergarten
  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
Grade 1 
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
Grade 2 
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
Grade 3 
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
Grade 4 
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
Grade 5 
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration
Grade
Units

Grade 6
  • Launch: Microbiome
  • Metabolism
  • Metabolism Engineering Internship
  • Thermal Energy
  • Plate Motion
  • Plate Motion Engineering Internship
  • Rock Transformations
  • Weather Patterns
  • Ocean, Atmosphere, and Climate

Grade 7
  • Launch: Harnessing Human Energy
  • Phase Change
  • Phase Change Engineering Internship
  • Magnetic Fields
  • Earth’s Changing Climate
  • Earth’s Changing Climate Engineering Internship
  • Chemical Reactions
  • Populations and Resources
  • Matter and Energy in Ecosystems

Grade 8
  • Launch: Geology on Mars
  • Earth, Moon, and Sun
  • Light Waves
  • Force and Motion
  • Force and Motion Engineering Internship
  • Traits and Reproduction
  • Natural Selection
  • Natural Selection Engineering Internship
  • Evolutionary History

Oklahoma Academic Standards for Science coverage

Amplify Science was designed from the ground up to meet the Next Generation Science Standards (NGSS), and the Oklahoma Academic Standards for Science (OASS) are closely aligned to the NGSS at K-8. The guidance below is meant to provide support for integrating additional activities that support full coverage of the OASS. You can view the full K–8 OASS correlation here.

Organized by grade level, each section below will outline:

  • additional activities that support 100% alignment to the Oklahoma Academic Standards for Science; 
  • the standard being addressed with the activities; 
  • the recommended placement of the activities within a specific Amplify Science unit; and 
  • PDFs of any accompanying materials that are necessary to implement the activities. 

Standard: 1.ESS3.1: Communicate solutions that will reduce the impact of humans on the land, water, air, and/or other living things in the local environment.

Recommended placementAnimal and Plant Defenses unit, Chapter 1

MaterialsThe Student Book Investigating Monarchs from the unit Needs of Plants and Animals

Investigating Monarchs emphasizes the needs of monarch caterpillars and butterflies and shows what happens when these animals are not able to meet their needs. The book first introduces the life cycle of monarchs, explaining that monarch caterpillars must eat milkweed to survive and change into butterflies. Their summer habitat must have milkweed. The butterflies then migrate a long distance, from the United States to a forest in the mountains of Mexico, where they take shelter in the trees. Their winter habitat must have trees. Scientists discovered that the monarch population in Mexico was greatly reduced because people were cutting down the trees. The forest was then protected, but the monarch population did not recover as expected. Scientists in the United States found evidence that this was because fields with milkweed are being replaced by farms and buildings. This book could be read with the class either before or after Chapter 1 of the Animal and Plant Defenses unit, which focuses on what plants and animals need to do to survive. Students could be asked to reflect on what the monarchs need to survive (including food and shelter), and how human activities impacted the monarchs’ ability to meet those needs. After reading the book, students could brainstorm ideas for how to reduce the impact of humans on the local environment.

Standard: MS-PS4-2: Develop and use a model to describe that waves are reflected, absorbed, or transmitted through various materials.

Recommended placementMetabolism unit, Lesson 3.3, addition to Activity 5 

Materials“What Eyes Can See” science article

As students investigate metabolism and the body systems, the article “What Eyes Can See” should be assigned to deepen their understanding of information processing and sense receptors and connect that understanding to the emerging idea of the interaction of waves with various materials. The article explores how the only thing we can really see is light. Light travels from a light source to the eye, passing through some materials and bouncing off others. Tiny organs inside the eye called rods and cones absorb energy from light, making vision possible. These interactions between light and materials determine our visible world. 

Instructions:

Download the PDF “What Eyes Can See” above and remind students of the Active Reading Guidelines. Before students read the article, invite them to share prior experiences. For example, “Have you ever had an experience where something looked different in one kind of light than in another kind of light? Or where something seemed to appear or disappear when the light changed?”

Standard: MS-PS3-1: Construct and interpret graphical displays of data to describe the relationships of kinetic energy to the mass of an object and to the speed of an object.

Recommended placementHarnessing Human Energy unit, Lesson 1.4, after Activity 4 

MaterialsForce and Motion SimulationActivity instructions and copymasters

In this activity, students use the Force and Motion Simulation to investigate the relationship between kinetic energy, mass, and velocity. 

Instructions

Download the PDF linked above for the Lesson Guide and copymasters needed for the activity. Note that this investigation is typically implemented during the Force and Motion unit. This means the Lesson Guide will contain some incongruous labeling (e.g., unit name), as well as instructions that are out of context and unnecessary for the purposes of addressing this standard at grade 7. We suggest skipping to step 4 of the Instructional Guide to avoid some of this. Your students will get additional exposure to this activity, and indeed the standard as a whole, when they get to the Force and Motion unit in grade 8.

Standards:

  • MS-PS2-3: Ask questions about data to determine the factors that affect the strength of electric and magnetic forces.
  • MS-PS2-5: Conduct an investigation and evaluate the experimental design to provide evidence that fields exist between objects exerting forces on each other even though the objects are not in contact.

Recommended placementForce and Motion unit, after Lesson 1.5 

MaterialsFlextension PDF

This hands-on activity builds on and reinforces students’ understanding of forces that act at a distance, with a focus on electrostatic force. Students explore electrostatic forces, prompted by a set of challenges that they try to accomplish. Next, students generate scientific questions based on their observations. Electrostatic force is less predictable and consistent than magnetic force, and investigating it can be both challenging and intriguing. The purpose of this lesson is for students to gain firsthand experience with electrostatic force and to gain experience generating scientific questions based on observations. You might choose to include this Flextension if you would like your students to have more exposure to electrostatic force, and if you would like to challenge your students to explore and ask questions about a challenging type of force. 

Instructions:

Download the PDF linked above for a detailed Lesson Guide and the copymasters associated with the activity. Note that this activity is typically implemented as an add-on Flextension during the Magnetic Fields unit. This means that you will see some information that is out of context (e.g., placement information, unit title), but the activity itself also works for the purposes of the Force and Motion unit. If you have any questions, please reach out to our support team via the chat icon in your account or help@amplify.com

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Amplify provides a unique kind of support you won’t find from other publishers. We have developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans
  • Information on where to locate standards and other planning materials
  • Recommendations and tips for day-to-day teaching with Amplify programs
  • Support with administering and interpreting assessment data and more

To reach our pedagogical team, use our live chat within your program, call (800) 823-1969, or email edsupport@amplify.com

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Our technical and program support is included and available from 7 a.m. to 7 p.m. ET, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

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Amplify and SFUSD Partnership

We recognize and respect the unique differences of each of our partnering districts—and that includes San Francisco USD.

Out of the box, Amplify Caminos offers districts a rich, comprehensive, research-based SELA experience. That said, no two districts are exactly alike. To that end, we are committed to working with San Francisco USD to ensure that Amplify Caminos addresses the needs of your community. This includes providing implementation guidance and support, as well as collaborating with your staff to determine which domains need to be modified or exchanged.

What is Amplify Caminos?

Amplify Caminos is a core Spanish language arts program for grades TK–5 that delivers:

  • Authentic instruction built from the ground up for the Spanish language.
  • A unique research-based approach truly built on the Science of Reading.
  • A combination of explicit foundational skills with meaningful knowledge-building.
  • Embedded support and differentiation that gets all students reading grade-level texts together.
  • Opportunities for students to see the strengths and experiences that all people share while also celebrating each others’ unique identities and experiences.



Watch the video below to learn more about Amplify Caminos for Grades K–2.



Watch the video below to learn more about Amplify Caminos for Grades 3–5.

How does Amplify Caminos work?

Amplify Caminos is built on the science of how kids learn to read—in Spanish.

Amplify Caminos is all about helping you teach students how to read, all while giving them authentic and engaging reasons to read. That’s why Amplify Caminos develops foundational skills and builds knowledge in tandem.

  • Knowledge: Through complex and authentic Spanish read-alouds with an emphasis on classroom interactivity, oral comprehension, and contextual vocabulary, students start to build their awareness of the world around them—and the way the reading skills they’re building give them access to it.
  • Skills: Starting with the sounds at the core of the Spanish
    language, students practice their phonemic awareness, handwriting skills, vocabulary, spelling, and grammar. Through daily practice, students become aware of the connection between reading and writing, building confidence as they go.
Illustration depicting the flow of genetic information, represented by ribbons transitioning from dna to rna, connected to various educational images and diagrams.

Respecting the development differences between grade ranges, Amplify Caminos teaches foundational skills and background knowledge as two distinct strands in grades K–2, and combines them into one integrated strand in grades 3–5.

Grades K–2:
Every day, students in grades K–2 complete one full lesson that explicitly and systematically builds foundational reading skills in the Amplify Caminos Lectoescritura strand, as well as one full lesson that builds robust background knowledge to access complex text in the Amplify Caminos Conocimiento strand. Through learning in each of these strands, students develop the early literacy skills necessary to help them become confident readers and build the context to understand what they’re reading.

Grades 3–5:
In grades 3–5, the Amplify Caminos Lectoescritura and Conocimiento strands are integrated in one set of instructional materials. Lessons begin to combine skills and knowledge with increasingly complex texts, close reading, and a greater writing emphasis. Students can then use their skills to go on their own independent reading adventures.

What do Amplify Caminos students explore?

Amplify Caminos builds students’ knowledge about the world.

In addition to teaching all students to crack the written code (which is vital for equity), the Amplify Caminos program helps students see the strengths and experiences we all share while celebrating their own unique identities and experiences.

This is accomplished through the exploration of topics and text that feature people who resemble students and familiar situations or experiences while also exposing them to people whose appearances, lives, beliefs, and backgrounds differ from their own.
 

Engaging domains

Amplify Caminos builds knowledge coherently across subjects and grades.

Throughout the program, students use their skills to explore domains that relate to storytelling, science, and the history of our world as seen through the eyes of many different groups.

Carefully selected to build from year-to-year, our grade-appropriate topics help students make and deepen connections while also reading, writing, and thinking creatively and for themselves.

Curriculum flowchart for Kindergarten to Grade 5, showing subject progression in language, science, and social studies, with highlighted and connected units.

New Knowledge Research Units for Grades K–5

Our brand-new Knowledge Research units carry forward Amplify Caminos’ powerful and proven instructional approach while also:

  • Adding more diversity. The rich topics and highly visual components featured in these units provide students with even more “windows and mirrors” and perspectives as they work to build knowledge.
  • Adding more authentic literature. Each new research unit revolves around a collection of high-interest authentic trade books that will spark more curiosity and inspire more inquiry.
  • Adding more flexibility. Units can be implemented for extended core instruction during flex periods, district-designated Pausing Points, or enrichment periods.

Units cover a variety of rich and relevant topics:

With these new units, students will soar to new heights with Dr. Ellen Ochoa, Amelia Earhart, and the Tuskegee Airmen. They’ll feel the rhythm as they learn about Jazz legends Miles Davis, Tito Puente, and Duke Ellington. And they’ll explore the far reaches of the world with Jacques Cousteau, Matthew Henson, and Eugenie Clark.

  • Grade K: El arte y el mundo que nos rodea
  • Grade 1: Cuentos de aventuras: relatos desde los confines de la Tierra
  • Grade 2: ¡A volar! La era de la aviación
  • Grade 3: Jazz y más
  • Grade 4: Energía: pasado, presente y futuro
  • Grade 5: Más allá de Juneteenth: de 1865 al presente

Units will be made available in English and Spanish, and will include the following components:

Why we added this unit:
“Every child is an artist,” said Picasso, meaning that every child uses art to explore and understand the world around them. El arte y el mundo que nos rodea honors that truth by introducing Kindergarten students to some of the ways in which artists have explored and understood the world around them.

This domain introduces students to artists from different time periods, countries, and cultures. Throughout the unit, students learn about different kinds of art and how artists use the world around them as they make art. They also connect this to what they have already learned about the earth, plants, and animals in other Caminos domains: GranjasPlantas, and Cuidar el planeta Tierra. In addition, students connect this to what they have learned about sculptors in the Presidentes y símbolos de los Estados Unidos domain. As they explore different artists and artistic traditions, they develop their ideas about how humans are connected to each other and to the world around them.

As you read the texts in this unit, students may observe ways in which the characters or subjects are both similar to and different from students. This is a good opportunity to teach students awareness and sensitivity, building on the idea that all people share some things in common, even as they have other things that make them unique. This unit also offers an excellent opportunity to collaborate with your school’s art teacher, as many lessons have suggested activities to help students understand the kind of art they are studying.

Within this unit, students have opportunities to:

  • Use details to describe art.
  • Identify three ways to create art.
  • Identify characteristics of cave art.
  • Sequence the steps of making pottery.
  • Describe how artists can create work connected to the world around them.
  • Describe what makes Kehinde Wiley’s portraits unique.
  • Explain how the texture of a surface can affect artwork created on it.
  • Explain what a sculpture is.
  • Describe what makes James Turrell’s artwork about the sky unique.
  • Explain what a museum is and what kinds of things you can see or do there.

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • Georgia O’Keeffe por Erica Salcedo
  • Yayoi Kusama: De aquí al infinito por Sarah Suzuki
  • Tejedora del arcoíris por Linda Elovitz Marshall
  • Las tijeras de Matisse por Jeanette Winter
  • El museo por Susan Verde
  • Quizás algo hermoso: Cómo el arte transformó un barrio por F. Isabel Campoy

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Why we added this unit:
This domain introduces students to adventure stories set around the world and challenges students to dig into the adventures through research. By listening to the Read-Alouds and trade books, students increase their vocabulary and reading comprehension skills, learn valuable lessons about perseverance and teamwork, and become familiar with gathering information for research.

In this unit, students study the careers of real-world explorers Dr. Eugenie Clark and Sophia Danenberg, marvel at the inventions of Jacques Cousteau, think critically about how teamwork and collaboration can make greater adventures possible, learn about the science and technology that enable adventures, and research some of the ways humans have confronted challenges at the edges of the world, from the oceans below to space above.

Each lesson in the domain builds students’ research skills as they ask questions, gather information, and write a paragraph about their findings. Students share what they have learned about adventures in an Adventure Gallery Walkthrough. By taking on the persona of one of the adventurers they meet in the Read-Alouds and trade books, students deliver their final paragraphs as if they are a “speaking portrait” of that person. Students are invited to dress up as that adventurer if they desire.

In addition, teachers can set aside time outside the instructional block to create the picture frames students will hold as they present to the Adventure Gallery Walk guests. Frames can be made from shirt boxes, cardboard, construction paper, or any art supplies that are on hand. This might be an opportunity to collaborate with the school’s art department if resources are available. Another option is to ask students to make their frames at home with their caregivers. On the day of the Adventure Gallery Walk, students will be the hosts and take on specific jobs, such as welcoming the guests, describing their work throughout the unit, and pointing out the areas of study on the domain bulletin board. You can find a complete list of student jobs in Lesson 13.

How this unit builds knowledge:
This unit builds upon the following Caminos units that students will have encountered in the previous grade.

  • Rimas y fábulas infantiles (Kindergarten)
  • Cuentos (Kindergarten)

The specific core content targeted in these domains is particularly relevant to the Read-Alouds students will hear in Cuentos de aventuras: relatos desde los confines de la Tierra. The background knowledge students bring to this unit will greatly enhance their understanding of the trade books used in this unit.

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • My Name Is Gabito/Me llamo Gabito por Monica Brown
  • Galápagos Girl/Galapagueña por Marsha Diane Arnold
  • My Name Is Gabriela/Me llamo Gabriela por Monica Brown
  • El viaje de Kalak por María Quintana Silva y Marie-Noëlle Hébert
  • Señorita Mariposa por Ben Gundersheimer
  • Sharuko, el arqueólogo peruano/Peruvian Archaeologist Julio C. Tello por Monica Brown
  • Abuelita fue al mercado por Stella Blackstone

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Why we added this unit:
With this domain, students head up, up, and away with an introduction to the soaring history of aviation. Students learn the stories of early aviators, such as the Montgolfier brothers, the Wright brothers, Aida de Acosta, and Amelia Earhart.

During the unit, students study the science of flight, including the physics concept of lift, and research the social impacts of the world of flight. Finally, students let their research skills take flight as they explore key figures from the world of aviation.

The lessons in this domain build on earlier Grade 2 Caminos domains about the westward expansion, early Greek civilizations, and Greek myths, and lay the foundation for learning about other periods of world history in future grades.

How this unit builds knowledge:
This unit builds upon the following Caminos units that students will have encountered earlier in the year.

  • La civilización griega antigua (Grade 2)
  • Mitos griegos (Grade 2)
  • La expansión hacia el oeste (Grade 2)

The specific core content targeted in these domains is particularly relevant to the Read-Alouds students will hear in ¡A volar! La era de la aviación. The background knowledge students bring to this unit will greatly enhance their understanding of the trade books used in this unit.

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • ¡A volar! Todo sobre aviones por Jennifer Prior
  • Amelia sabe volar por Mara dal Corso
  • Héroes de la aviación que cambiaron el mundo por Dan Green
  • El niño que alcanzó las estrellas por José M. Hernández
  • La niña que aprendió a volar por Sylvia Acevedo
  • Buenas Noches Capitán Mamá por Graciela Tiscareño-Sato

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Why we added this unit:
This domain teaches students about the vibrant music, poetry, and culture of the Jazz Age in the United States. Students learn about famous writers and musicians like Langston Hughes, Louis Armstrong, Billie Holiday, Melba Liston, Tito Puente, and Miles Davis. They study how the jazz art form took root in the South, then spread to the North to become the sound of the Harlem Renaissance, eventually connecting people around the world in musical expression.

During this unit, students perform guided research to further explore both the history of jazz and what jazz is today. They develop research skills and then use those skills to find deeper connections between the stories and music of the Jazz Age and music today. As students learn about the world of jazz, they collaborate and share ideas with their classmates. They also practice sharing feedback focused on their written work, and, at the end of the unit, students present their research to the group.

The lessons give students opportunities to dive into the rhythms and stories of jazz, utilizing the knowledge sequence in this unit to:

  • Collaboratively generate research questions about jazz, jazz musicians, contemporary musicians from the state where they live or have lived, and the evolution of jazz music.
  • Utilize Read-Alouds, independent reading, and partner reading to learn about the Jazz Age, the Harlem Renaissance, jazz music, and biographies of celebrated jazz musicians and writers.
  • Research the answers to their generated questions, gather information, write a short research essay about a famous jazz musician, write a short essay about a contemporary musician from the state where they live or have lived, and give a presentation about their research.

How this unit builds knowledge:
Within this unit, students have opportunities to:

  • Ask relevant questions and make pertinent comments
  • Identify details in texts
  • Determine key ideas of texts by evaluating details
  • Make text-based inferences
  • Generate questions based on prior knowledge and gathered information
  • Synthesize details across texts to demonstrate comprehension
  • Discuss and explain an author’s purpose
  • Identify and cite reliable primary and secondary sources of information
  • Compose a well-organized and focused informative essay
  • Make connections between topics
  • Present information using appropriate media

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • ¡Esquivel! Un artista del sonido de la era espacial por Susan Wood
  • Ray Charles por Sharon Bell Mathis
  • Tito Puente, el Rey del Mambo por Monica Brown
  • Me llamo Celia, la vida de Celia Cruz por Monica Brown
  • ¡Azúcar! por Ivar Da Coll

In this unit, students also read the poem “Harlem” by Langston Hughes. (Available for free through the Academy of American Poets website and the Poetry Foundation website, with recorded audio available through the website for John Hancock College Preparatory High School.)

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Why we added this unit:
With this domain, students become tomorrow’s problem solvers in this study of energy in the United States. Analytical reading skills are developed by examining the challenges of early energy innovators. Students then read about current energy practices and young energy change-makers across the world.

Throughout the unit, students conduct research into different sources of energy and present a proposal, putting them in the shoes of future energy innovators. They also use the knowledge sequence in this unit to:

  • Collaboratively analyze texts to identify cause-effect and problem-solution relationships.
  • Generate questions and conduct research about energy.
  • Write an opinion essay making their case for a fuel of the future.
  • Create energy proposals using primary and secondary resources.

How this unit builds knowledge:
This unit builds upon the following Caminos units that students will have encountered in previous grades as well as earlier in the year.

  • Plantas (Grade K)
  • La historia de la Tierra (Grade 1)
  • ¡Eureka! Estudiante inventor (Grade 4)

The specific core content targeted in these domains is particularly relevant to the Read-Alouds students will hear in Energía: pasado, presente y futuro. The background knowledge students bring to this unit will greatly enhance their understanding of the trade books used in this unit.

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • La historia de los combustibles fósiles por William B. Rice
  • El niño que domó el viento por William Kamkwamba y Bryan Mealer

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Why we added this unit:
Within this domain, Students learn about General Granger’s announcement in Galveston, Texas on June 19, 1865, a day marked in history as Juneteenth. Texts and multimedia sources will support foundational knowledge-building about the end of slavery in the United States. A review of the first freedom announcement, President Lincoln’s Emancipation Proclamation, provides students with background knowledge to further emphasize the significance of Juneteenth in American history.

This unit also takes students on a journey beyond Juneteenth, as they study specific contributions of African Americans from 1865 to the present day. Students participate in a virtual field trip to Emancipation Park in Houston, Texas and use the knowledge sequence in this unit to:

  • Collaboratively generate research questions about Juneteenth, The Great Migration, innovators and inventors, education, the humanities, activists, and allies.
  • Use Read-Alouds, independent, and partner reading to learn about African American contributions from 1865 to the present.
  • Research to find answers to their generated questions, gather information, and write a four-chapter Beyond Juneteenth book.

How this unit builds knowledge:
This unit builds upon the following Caminos units that students will have encountered in previous grades.

  • Los nativos americanos (Grade K)
  • Una nueva nación: la independencia de los Estados Unidos (Grade 1)
  • La Guerra Civil de los Estaods Unidos (Grade 2)
  • La inmigración (Grade 2)
  • Los nativos americanos (Grade 5)

The specific core content targeted in these domains is particularly relevant to the Read-Alouds students will hear in Más allá de Juneteenth: de 1865 al presente
. The background knowledge students bring to this unit will greatly enhance their understanding of the trade books used in this unit.

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • Martí’s Song for Freedom/Martí y sus versos por la libertad escrito por Emma Otheguy
  • ¡Celebremos Juneteenth! escrito por Carole Boston Weatherford
  • Side by Side/Lado a Lado: The Story of Dolores Huerta and Cesar Chavez/La Historia de Dolores Huerta y César Chávez escrito por Monica Brown
  • Canto de alabanza para el día: Poema para la ceremonia inaugural del mandato de Barack Obama escrito por Elizabeth Alexander, traducido por Rodrigo Rojas

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Diverse texts

Amplify Caminos puts a variety of texts in the hands of students every day.

Amplify Caminos includes both transadaptations and authentic texts written by Latin American and Spanish authors. In addition to featuring a diverse range of authors and topics, our texts represent individuals and characters with a broad range of identity factors, including socioeconomic status, age, ability, race, ethnicity, country of origin, religion, and more.

Amplify Caminos texts include:

  • Authentic literature: Authentic literature exposes students to a variety of text types and perspectives to deepen their knowledge of fascinating topics in social studies, science, literature, and the arts. Authentic texts support text-to-self, text-to-world, and text-to-text connections for readers.
  • Decodable Student Readers: Amplify Caminos is built on the conviction that equitable instruction is vital to an effective program. Decodable Student Readers at grades K–2 are newly re-designed to celebrate students’ diverse experiences and feature individuals with a broad range of identity factors, including socioeconomic status, age, ability, race, ethnicity, country of origin, religion, and more.
  • ReadWorks® texts: Amplify and ReadWorks have partnered to deliver high-quality texts curated to support the Amplify Caminos Knowledge Sequence and to extend student learning. Texts include high-interest nonfiction articles in topics in social studies, science, literature, and the arts. These texts are accompanied by vocabulary supports and standards-aligned formative assessment opportunities. Teachers can monitor their students’ progress using the ReadWorks reporting features.
Three book covers displaying children's books in spanish, each featuring colorful and stylized illustrations related to cultural stories.

Amplify Caminos Trade Book Collection Guide

Each book in our authentic literature collection was selected specifically to support and enhance the content of the K-2 Conocimiento Strand. These anchor texts are intended for use as an introduction to each domain—engaging students, piquing their curiosity, and building initial background knowledge—before diving into the deeper content of the domain Read-Alouds.

Every trade book has an instructional guide that includes the following:

  • Author and illustrator
  • Book summary
  • The Essential Question of the Knowledge domain, connecting the book to the domain
  • Key Tier 2 and Tier 3 vocabulary words found in the book
  • A group activity to reinforce and extend students’ knowledge and understanding
  • A performance task to help gauge students’ comprehension of concepts in the text
  • Writing prompts to expand understanding and critical thinking
  • Text complexity ratings and descriptors for quantitative, qualitative, and reader/task categories

Download the Amplify Caminos Trade Book Collection Guide for Grades K–2.

Detailed information about text complexity ratings and descriptors; additional uses for the books before, during, and after domain instruction; and the complete list of domains and books for each grade level can be found in the More About the Books section of this guide.

What makes Amplify Caminos different?

Built on the Science of Reading

Built out of the latest research in the Science of Reading, Amplify Caminos delivers explicit instruction in both foundational literacy skills (systematic phonics, decoding, and fluency) and background knowledge in grades K–2 with an integrated approach to explicit instruction in grades 3–5.

Three connected orange blocks labeled

Explicit systematic skills instruction

The skills instruction in Amplify Caminos was distinctly developed with the Spanish language in mind. Its foundational lessons are specific to the language, rather than a direct translation from Amplify CKLA’s English skills instruction.

Reading instruction begins with the vowels first, then the most common consonants, and finally the least common consonants. Students will blend and segment sounds to form syllables, and syllables to form words.

Although Spanish has a highly predictable orthography, there are a few silent letters (h is always silent, u is silent after g or q), as well as letters that can make different sounds, depending on the letters that follow them. For that reason, syllables with these letters are taught somewhat later in the progression. The same is true for syllables with infrequently occurring consonants, such as z, k, x, and w.

Coherent knowledge instruction

While students are learning how to read, the Conocimiento strand gives them authentic and engaging reasons to read.

Amplify Caminos uses spiral learning to reinforce every student’s ability to develop skills like reading, writing, speaking, and listening in Spanish that can be transferred to English. As students engage with their lessons, they explore the similarities and differences in grammar, vocabulary, writing, and language use between Spanish and English. This bridge helps students learning two languages to strengthen their knowledge in both.

Through cross-curricular content, students explore units that relate to storytelling, science, and the history of our world in a holistic and thoughtful way. With these units, you’ll bring the world to your students, showing them how reading can become an exciting, rewarding, and useful part of their lives.

A collage of illustrated book covers, including themes of Don Quixote, space exploration, and anthropomorphic animals in various scenarios, all enriched with Spanish language elements.

Embedded differentiation for all learners

Amplify Caminos provides built-in differentiation strategies and supports in every lesson.

  • Apoyo a la enseñanza y desafío: Support and Challenge suggestions in every lesson provide assistance or opportunities for more advanced work toward the goal of the lesson.
  • Notas culturales: These point-of-use notes provide additional information about the traditions, foods, holidays, word variations, and more from across the Spanish-speaking world.
  • Apoyo adicional: Every lesson in the Lectoescritura (Skills) Strand provides additional support activities suggested to reinforce foundational skills instruction. These activities can be given to any student who requires extra help, including students with special needs.

Systematic and cohesive writing instruction

Writing instruction in Amplify Caminos builds systematically and cohesively within and across grades.

In Grades K-2, writing mechanics—including handwriting and spelling—are taught in the Amplify Caminos Lectoescritura strand. Starting in Grade 1, instruction includes four steps in the writing process: planning, drafting, editing, and publishing and features lessons that have modeling, collaboration, and sharing. As students gain skills and confidence, they are able to take on more of these steps independently. Students learn to use planning techniques, including brainstorming and graphic organizers.

Beginning in Grade 4, the Amplify Caminos writing process expands to also include sharing and evaluating. In Grades 4 and 5, the writing process is no longer conceptualized as a series of scaffolded, linear steps (an important change from the Grade 3 writing process). Rather, students move between components of the writing process in a flexible manner, similar to the process mature and experienced writers follow naturally.

young male students writing with a pencil

Amplify Caminos’ writing instruction provides a clear progression through the text types in each grade.

Because Amplify Caminos has two strands of lessons in Grades K-2, Lectoescritura and Conocimiento, students are exposed to both narrative and informational texts throughout the year. In Grades 3-5, the integrated units feature study in literary, informational, or a mix of both types of texts, depending on the content of the unit.

  • Grades K–2 introduce and establish the key elements of each text type, allowing students to gain comfort and confidence writing narratives, opinions, and informative texts. This enables students to practice thinking about content in different ways, offering more depth and breadth to their understanding of core content and of the writing text types.
  • By Grade 3, students will have gained significant practice in narrative, opinion/argumentative, and informational/explanatory forms of writing and will continue to apply those skills through Grade 5.

How does Amplify Caminos integrate with the other parts of the literacy system?

Amplify Caminos + mCLASS® Lectura

Achieve complete parity between English and Spanish assessments with mCLASS Lectura for K–6. mCLASS Lectura allows teachers to connect with their Spanish-speaking students face-to-face, one-on-one, and in the language most comfortable to them. The result? Valid and reliable student data reports
available in both English and Spanish, enabling teachers to pinpoint where their Spanish-speaking or emergent bilingual students really are in their skill development and what instruction to prioritize.

Reading assessment validated for benchmark, progress monitoring, and dyslexia screening

Amplify Caminos + Amplify Reading

Amplify Reading is an engaging, adaptive digital program that extends the learning in Amplify Caminos. Amplify Reading offers support to a large sub-group of English learners (ELs) through Spanish voice-over. Spanish voiceover instructions are available in vocabulary and sentence-level comprehension games so ELs can build their vocabulary, language, and critical comprehension skills before moving into analyzing complex texts

Spanish Support

Demo access and sample materials

Ready to explore on your own? First, watch the videos below to learn about the program’s components and how to navigate the digital platform.

Physical materials walkthrough video



Digital navigation video

Demo access

Next, follow the instructions below to access your demo account.

Laptop screen displaying a login page for
  • Click the CKLA and Caminos Demo button below.
  • Select Log in with Amplify.
  • To explore as a teacher, enter this username: t1.sfusdreviewer@demo.tryamplify.net
  • To explore as a student, enter this username: s1.sfusdreviewer@demo.tryamplify.net
  • Enter the password: Amplify1-sfusdreviewer
  • Click the Programs and apps menu
  • Select CKLA Teacher Resource Site
  • Select the desire grade level
  • Use the toggle to switch between English (CKLA) and Spanish (Caminos) resources.
CKLA and Caminos Demo

Sample materials

Finally, click on the grade levels below to explore your requested sample units.

Each book in our authentic literature collection was selected specifically to support and enhance the content of the K-2 Conocimiento Strand. These anchor texts are intended for use as an introduction to each domain—engaging students, piquing their curiosity, and building initial background knowledge—before diving into the deeper content of the domain Read-Alouds.

Every trade book has an instructional guide that includes the following:

  • Author and illustrator
  • Book summary
  • The Essential Question of the Knowledge domain, connecting the book to the domain
  • Key Tier 2 and Tier 3 vocabulary words found in the book
  • A group activity to reinforce and extend students’ knowledge and understanding
  • A performance task to help gauge students’ comprehension of concepts in the text
  • Writing prompts to expand understanding and critical thinking
  • Text complexity ratings and descriptors for quantitative, qualitative, and reader/task categories

Download the Amplify Caminos Trade Book Collection Guide for Grades K–2.
Detailed information about text complexity ratings and descriptors; additional uses for the books before, during, and after domain instruction; and the complete list of domains and books for each grade level can be found in the More About the Books section of this guide.

Conocimiento Strand:

Lectoescritura Strand:

Conocimiento Strand:

Lectoescritura Strand:

Integrated Strand

Additional resources

Inspiring the next generation of Oklahoma scientists, engineers, and curious citizens

Amplify Science is an engaging new core curriculum designed for three-dimensional, phenomena-based learning.

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Oklahoma Instructional Samplers

Video: Oklahoma Spotlight on All Learners (SPED, G & T, EL, DEI)

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Grade 6

Grade 7

Grade 8

Resources to support your review

Remote and hybrid learning support

Oklahoma Spotlight Video: Remote and Hybrid Learning

Amplify has launched a new remote learning solution called Amplify Science @Home. Intended to make extended remote learning and hybrid learning easier, Amplify Science@Home includes two useful options for continuing instruction: @Home Videos and @Home Units. 

Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home. These videos will be produced for all K–5 units, and for the first four units of each 6–8 grade level. Their release will be rolling, beginning in August 2021.   

Amplify Science@Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @Home Units will be developed for all Amplify Science K–8 units. Each @Home unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available.
  • Overviews to send home to families.

Student materials are available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home.
  • Downloadable @Home Packets (PDF) for students without access to technology at home.

Download the remote and hybrid learning guide.

What’s included

Flexible resources that work seamlessly together
Oklahoma Spotlight Video: Instructional Resources: More than a textbook!

Science articles
The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Student Investigation Notebooks
Available for every unit, the Student Investigation Notebooks provide space for students to:

  • record data.
  • reflect on ideas from texts and investigations.
  • construct explanations and arguments.

Available with full-color article compilations for middle school units.

Digital student experience
Students access the digital simulations and modeling tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • conduct hands-on investigations.
  • engage in active reading and writing activities.
  • participate in discussions.
  • record observations.
  • craft end-of-unit scientific arguments.

Oklahoma Spotlight Video: Spotlight on Simulations

Teacher’s Guides
Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • Classroom Slides.
  • detailed lesson plans.
  • unit and chapter overview documentation.
  • differentiation strategies.
  • standards alignments.
  • in-context professional development.

Oklahoma Spotlight Video: Classroom Slides

Hands-on materials kits
Hands-on learning is at the heart of Amplify Science. Each unit kit contains:

  • consumable and non-consumable hands-on materials.
  • print classroom display materials.
  • premium print materials for student use (sorting cards, maps, etc).

Scope and sequence

GRADE

UNITS

Kindergarten

  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water

Grade 1

  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth

Grade 2

  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms

Grade 3

  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate

Grade 4

  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information

Grade 5

  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration

GRADE

UNITS

Grade 6

  • Launch: Microbiome
  • Metabolism
  • Plate Motion
  • Plate Motion Engineering Internship
  • Rock Transformations
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Thermal Energy
  • Phase Change

Grade 7

  • Launch: Harnessing Human Energy
  • Chemical Reactions
  • Populations and Resources
  • Matter Energy and Ecosystems
  • Earth’s Changing Climate
  • Earth’s Changing Climate Engineering Internship
  • Magnetic Fields

Grade 8

  • Launch: Geology on Mars
  • Force and Motion
  • Force and Motion Engineering Internship
  • Light Waves
  • Earth, Moon, and Sun
  • Traits and Reproduction
  • Natural Selection
  • Evolutionary History

Oklahoma Academic Standards for Science coverage

Amplify Science was designed from the ground up to meet the Next Generation Science Standards (NGSS), and the Oklahoma Academic Standards for Science (OASS) are closely aligned to the NGSS at K–8. The guidance below is meant to provide support for integrating additional activities that support full coverage of the OASS. You can view the full K–8 OASS correlation here.

Organized by grade level, each section below will outline:

  • additional activities that support 100% alignment to the Oklahoma Academic Standards for Science; 
  • the standard being addressed with the activities; 
  • the recommended placement of the activities within a specific Amplify Science unit; and 
  • PDFs of any accompanying materials that are necessary to implement the activities. 

Standard: 1.ESS3.1: Communicate solutions that will reduce the impact of humans on the land, water, air, and/or other living things in the local environment.

Recommended placement: Animal and Plant Defenses unit, Chapter 1

MaterialsThe Student Book Investigating Monarchs from the unit Needs of Plants and Animals

Investigating Monarchs emphasizes the needs of monarch caterpillars and butterflies and shows what happens when these animals are not able to meet their needs. The book first introduces the life cycle of monarchs, explaining that monarch caterpillars must eat milkweed to survive and change into butterflies. Their summer habitat must have milkweed. The butterflies then migrate a long distance, from the United States to a forest in the mountains of Mexico, where they take shelter in the trees. Their winter habitat must have trees. Scientists discovered that the monarch population in Mexico was greatly reduced because people were cutting down the trees. The forest was then protected, but the monarch population did not recover as expected. Scientists in the United States found evidence that this was because fields with milkweed are being replaced by farms and buildings. This book could be read with the class either before or after Chapter 1 of the Animal and Plant Defenses unit, which focuses on what plants and animals need to do to survive. Students could be asked to reflect on what the monarchs need to survive (including food and shelter), and how human activities impacted the monarchs’ ability to meet those needs. After reading the book, students could brainstorm ideas for how to reduce the impact of humans on the local environment.

Standard: MS-PS4-2: Develop and use a model to describe that waves are reflected, absorbed, or transmitted through various materials.

Recommended placement: Metabolism unit, Lesson 3.3, addition to Activity 5 

Materials“What Eyes Can See” science article

As students investigate metabolism and the body systems, the article “What Eyes Can See” should be assigned to deepen their understanding of information processing and sense receptors and connect that understanding to the emerging idea of the interaction of waves with various materials. The article explores how the only thing we can really see is light. Light travels from a light source to the eye, passing through some materials and bouncing off others. Tiny organs inside the eye called rods and cones absorb energy from light, making vision possible. These interactions between light and materials determine our visible world. 

Instructions:

Download the PDF “What Eyes Can See” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. For example, “Have you ever had an experience where something looked different in one kind of light than in another kind of light? Or where something seemed to appear or disappear when the light changed?”

Standard: MS-PS3-1: Construct and interpret graphical displays of data to describe the relationships of kinetic energy to the mass of an object and to the speed of an object.

Recommended placement: Harnessing Human Energy unit, Lesson 1.4, after Activity 4 

MaterialsForce and Motion simulationActivity instructions and copymasters

In this activity, students use the Force and Motion Simulation to investigate the relationship between kinetic energy, mass, and velocity. 

Instructions

Download the PDF linked above for the Lesson Guide and copymasters needed for the activity. Note that this investigation is typically implemented during the Force and Motion unit. This means the Lesson Guide will contain some incongruous labeling (e.g., unit name), as well as instructions that are out of context and unnecessary for the purposes of addressing this standard at grade 7. We suggest skipping to step 4 of the Instructional Guide to avoid some of this. Your students will get additional exposure to this activity, and indeed the standard as a whole, when they get to the Force and Motion unit in grade 8.

Standards:

  • MS-PS2-3: Ask questions about data to determine the factors that affect the strength of electric and magnetic forces.
  • MS-PS2-5: Conduct an investigation and evaluate the experimental design to provide evidence that fields exist between objects exerting forces on each other even though the objects are not in contact.

Recommended placementForce and Motion unit, after Lesson 1.5 

MaterialsFlextension PDF

This hands-on activity builds on and reinforces students’ understanding of forces that act at a distance, with a focus on electrostatic force. Students explore electrostatic forces, prompted by a set of challenges that they try to accomplish. Next, students generate scientific questions based on their observations. Electrostatic force is less predictable and consistent than magnetic force, and investigating it can be both challenging and intriguing. The purpose of this lesson is for students to gain firsthand experience with electrostatic force and to gain experience generating scientific questions based on observations. You might choose to include this Flextension if you would like your students to have more exposure to electrostatic force, and if you would like to challenge your students to explore and ask questions about a challenging type of force. 

Instructions:

Download the PDF linked above for a detailed Lesson Guide and the copymasters associated with the activity. Note that this activity is typically implemented as an add-on Flextension during the Magnetic Fields unit. This means that you will see some information that is out of context (e.g., placement information, unit title), but the activity itself also works for the purposes of the Force and Motion unit. If you have any questions, please reach out to our support team via the chat icon in your account or help@amplify.com

Explore the Digital Teacher’s Guide

When you’re ready to review, click the orange button below and use your provided login credentials to access the Amplify Science Digital Teacher’s Guide.

Review now

To help familiarize yourself with navigating the digital Teacher’s Guide, watch our navigational guide videos:

Grades K–5:

Grades 6–8:

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We’ve developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans.
  • Information on where to locate standards and other planning materials.
  • Recommendations and tips for day-to-day teaching with Amplify programs.
  • Support with administering and interpreting assessment data and more.

To reach our pedagogical team, use our live chat within your program, call              (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 7 a.m. to 7 p.m. ET, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program.
  • Call our toll-free number: (800) 823-1969.

For less urgent questions:

Email support

Contact us

Contact your Oklahoma representative:
Julie Godfrey
Account Executive
jgodfrey@amplify.com
(817) 360-0527

Getting started with Amplify Science California

Dear Elk Grove K–5 teachers,

Welcome to the Amplify Science California family! Below you’ll find everything you need to successfully kick off your science instruction this year.

– Your California team

Amplify Science - Student reading a book remote & hybrid

Program introduction

Onboarding videos

To start using Amplify Science California quickly in your classroom, check out the following onboarding videos. They cover what you need to know to get started fast, from unpacking materials to quickly start using Amplify Science in your classroom and navigating the digital Teacher’s Reference Guide.

Program pacing

Hands-on materials kit

The following videos give you a quick look into our Amplify Science California classroom kits. For each grade level, you’ll find a “How to unpack your kit” video for the first unit of the program.

Teacher digital resources

Watch this video to understand the basic organization of the digital teacher experience and how to navigate the platform.

Want some practice? Download this exploration guide to practice toggling between teacher view, presentation view, and student view.

Our new digital experience also makes it easy to assign work through our LMS integrations.

Our new digital experience also makes it easy to view student work in real time.

Student digital resources

Watch this video to take a peek at the various student digital resources available to your class.

Use this Student Login Click Path document to support students and families logging in from home.

Essential resources

Your Teacher’s Reference Guide is a tremendously rich resource. It’s also packed! That’s why teachers getting started with Amplify Science love our condensed Unit Guides, lesson planners, and device calendars.

Unit Guides

These short and sweet guides provide a big picture overview of each unit’s phenomenon and storyline, the key questions that guide learning, and how the storyline develops from chapter to chapter. We even spoil the big reveal at the end by pointing out ahead of time what students figure out throughout the unit.

A laptop displays an educational website titled "The Earth System" with lesson modules; a printed Teacher’s Guide with a similar cover design is shown beside it.

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Lesson planners

Our lesson planners give you easy access to direct links to key resources within the program.

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Teacher-provided materials

Your Amplify Science classroom kit includes a wide variety of consumable and non-consumable items. In fact, each kit contains enough non-consumables to support a class of 36 students working in small groups, and enough consumables to support 72 student uses.

In addition to these provided items, there are some teacher-provided items required in each unit. For a consolidated list of teacher-provided items per unit, download the appropriate PDF below.

Device calendars

Our at-a-glance device calendars make device management and sharing between grade-level colleagues a breeze. With one calendar per unit (beginning in grade 2), you can easily see which lessons utilize devices.

Approach to assessment

The Amplify Science California assessment system is grounded in the principle that students benefit from regular and varied opportunities to demonstrate understanding through performance. In practice this means that conceptual understanding is revealed through engagement in the science and engineering practices.

Assessment types at a glance

In your classroom, you’ll be utilizing a variety of formative (F) and summative (S) assessments:

  • End-of-Unit Assessment (S): Assessments toward the end of each unit feature a combination of targeted discussions, student-generated models, and written explanations to gauge students’ knowledge and growth.
  • Pre-Unit Assessments (F): Discussion, modeling, and written explanations to gauge students’ knowledge.
  • On-the-Fly Assessments (OtFA) (F): Multi-dimensional tasks integrated regularly throughout the lessons. OtFA opportunities were designed to help teachers make sense of student activity during a learning experience (e.g., student-to-student talk, writing, and model construction) and to provide evidence of how a student is coming to understand core concepts and developing dexterity with SEPs and CCCs. Three-dimensional assessment opportunities make measuring progress toward NGSS learning goals possible.
  • Self-assessments (F): One per chapter; brief opportunities for students to reflect on their own learning, ask questions, and reveal ongoing wonderings about unit content.
  • Critical Juncture Assessments (F): Variety of multidimensional performance tasks intended to assess student progress, occurring at the end of each chapter. Examples include writing scientific explanations, engaging in argumentation, developing and using models, and designing engineering solutions. Based on student performance on the assessment, teachers have access to recommendations for targeted student interventions, suggested follow-ups, or differentiating classroom instruction.
  • End-of-Unit Assessment (S): Assessments toward the end of each unit feature a combination of targeted discussions, student-generated models, and written explanations to gauge students’ knowledge and growth.

Pre-Unit Assessments

Most Pre-Unit assessments are embedded within an activity of the first lesson of a unit. In kindergarten and grade 1, the Pre-Unit assessment (as well as the End-of-Unit assessment) is oral. In grades 2–5 they are typically written. Refer to the Digital Resources area of the Lesson Brief for materials needed for the assessment activity, such as the Clipboard Assessment Tool (K–1 only), copymasters (grades 2–5 only), and an Assessment Guide that will help you interpret and leverage students’ responses.

If you and your students have Interactive Classroom licenses, students can complete their assessment digitally instead of using the copymaster.

When students complete the assessment pages digitally, you’ll be able to review their work on the View Work page.

Critical Juncture Assessments

Critical Juncture assessments typically occur towards the end of each chapter. The Materials and Preparation section will indicate when there is a Critical Juncture to prepare for, but you can also tell when an activity is designed to be a Critical Juncture assessment by the hummingbird icon that will appear within it. Selecting the hummingbird icon will tell you how to assess students’ understanding with the activity, and how to tailor instruction based on what you find. If you need guidance on the “answers” to the assessment activity, refer to the “Possible Responses” tab.

If you are using Classroom Slides or Interactive Classroom, you’ll see a hummingbird or “Critical Juncture” label in the bottom right corner of one of the slides of the activity.

The notes about assessing understanding and tailoring instruction are located in the notes of that slide (on the right-hand side of the Teacher’s Guide tab in the Interactive Classroom experience; underneath the slide in Classroom Slides).

End-of-Unit Assessments

End-of-Unit assessments are typically the last lesson of a unit. In some units, these are two-part assessments that take place over two lessons. The easiest way to find the End-of-Unit assessment is to skim through the lesson titles. Lessons containing End-of-Unit assessments will always have that noted in the title.

Like the Pre-unit assessment, you can find materials for the End-of-unit assessments in the Digital Resources area of the Lesson Brief.

On-the-Fly Assessments

These embedded assessments leverage the formative opportunities in the learning experience students are already engaged in, such as creating models, analyzing data, actively reading, conducting investigations, and more. Refer to the Critical Juncture section above for guidance on finding information about using them.

Unit-level assessment information

You can find overall information about an individual unit’s assessments in the “Assessment System” resource, which is located within the Teacher References section on the Unit Overview page.

The Assessment System resource contains a comprehensive list of all of the assessment opportunities in the unit, including the assessment’s location, a brief indication of what students are doing in that particular activity, what type of assessment it is, which Disciplinary Core Ideas, science and engineering practices, and cross-cutting concepts it specifically addresses, and the kind of evaluation guidance you can expect for it. If you are in a kindergarten or first grade unit, you will also find information on the Clipboard Assessment Tool (used for supporting oral assessment) in this section.

If you’re interested in focusing on information related to the unit’s Critical Juncture and On-the-Fly assessments in particular, check out the “Embedded Formative Assessments” resource, also located within the Teacher References section on the Unit Overview page.

Three-dimensional assessment connections

All assessment opportunities within Amplify Science California include clear labeling around the Disciplinary Core Ideas (DCIs), Crosscutting Concepts (CCCs), and Science and Engineering Practices (SEPs) to help teachers connect formative and summative assessments to specific NGSS dimensions.

Coming soon

Unlike other publishers, we don’t make you wait until your next adoption to get the latest and greatest from Amplify. We’re always launching new and exciting features. In fact, on this page is a list of new features you can look forward to using during the 2023-2024 school year.

FAQs

Program questions

Amplify Science California is a flexible, blended K–8 science curriculum that addresses 100 percent of the Next Generation Science Standards for California and a significant number of the California English Language Development Standards and Common Core State Standards for English Language Arts, Literacy in Science and Technical Subjects, and Math. Together, the units deliver three-dimensional instruction across the following disciplines: Life Science, Earth and Space Science, Physical Science, and Engineering Design.

Amplify Science California does indeed feature some powerful and engaging digital components, which are gradually introduced beginning at grade 2. However, as a fully blended and flexible program, Amplify Science California can be (and has been) implemented in a wide variety of scenarios.

All lessons were designed with device sharing in mind, and never assume that every student has a separate device. While 1:1 scenarios are great, they aren’t required. When devices are necessary for students to fully experience a concept, teachers can opt to share devices across pairs or small groups, or simply display the Sim or Modeling Tool to the whole class and allow students to “drive” using your device.

Rather than introducing a concept on Monday, testing for mastery on Friday, and knowing students will forget everything by the next Tuesday, we set out to help students build meaningful and lasting knowledge that they can retain and transfer over the course of the entire unit. We accomplish this by giving students multiple opportunities (a.k.a. “at-bats”) to encounter, explore, and experience a concept. Said another way, Amplify Science California is actually made up of a series of multi-modal “mini-lessons.” This intentional, cyclical, and iterative design mirrors the 5Es, allows teachers the flexibility to speed up or skip ahead once students have demonstrated mastery, and empowers students to learn concepts more deeply than any other program.

Yes. Rather than separating performance expectations into physical science units, earth and space science units, and life science units, Amplify Science California units are organized around anchoring phenomena designed to give students opportunities to dive deeply into certain Disciplinary Core Ideas (DCIs) while also drawing from or applying to others. In organizing the Amplify Science California middle school units, we’ve carefully sequenced these ideas within each grade level to support the development of deep and coherent understanding.

Many real-world phenomena cross the domain boundaries of life, physical, or earth and space science (as well as engineering). Each Amplify Science California unit begins with an intriguing real-world phenomenon that poses a problem that needs to be understood and/or solved. By the end of the unit, students will have analyzed the anchor phenomenon across multiple scientific domains, possibly designed and tested an engineering solution, and applied what they’ve learned in a different context.

For example:
In the Light Waves unit, students investigate the anchoring phenomenon of why Australia has a much higher skin cancer rate than countries at similar latitudes like Brazil. The focus of this unit is on Disciplinary Core Ideas related to wave properties (PS4.A) and electromagnetic radiation (PS4.B). Students explore these physical science ideas deeply within the unit, and also draw on ideas from earth science (e.g., latitudinal variation of the sun’s energy) and life science (e.g., the effect of energy on the DNA in the nucleus of a cell) in order to explain the central phenomenon.

Absolutely. Hands-on learning is at the heart of Amplify Science California. Integrated into every unit are opportunities for students to take on the role of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend their claims.

In addition, our unique combination of focus and flex activities means teachers have more options, opportunities, and materials to make learning active. Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

What’s important to remember is that more hands-on doesn’t necessarily mean better, at least according to the California NGSS. That’s because only two of the eight Science and Engineering Practices (SEPs) are directly related to hands-on learning.

Just as scientists gather evidence from many types of sources, students in the Amplify Science California program gather evidence not just by making physical models, but also by making and interpreting digital models; reading texts; watching videos; and analyzing photographs, maps, and data sets. By doing do, students are provided with more opportunities than any other program to use all of the practices called out in the California NGSS Framework:

  • Asking questions
  • Developing and using models
  • Planning and carrying out investigations
  • Analyzing and interpreting data
  • Using mathematics and computational thinking
  • Constructing explanations
  • Engaging in arguments from evidence
  • Obtaining, evaluating, and communicating information

While all of our units engage students in gathering evidence from a rich collection of sources, the reliance on different types of evidence (and evidence sources) varies according to unit. For instance, some units lend themselves to meaningful hands-on experiences, while in other units the phenomena students are investigating are too slow, too dangerous, or too big to be observed directly. In those units, students rely more heavily on other evidence sources such a physical models or simulations.

Unit types in grades K–5

In each K–5 grade, there is one unit that emphasizes investigation, one that emphasizes modeling, and one that emphasizes design. In addition, in grades 3–5, there is also one unit that emphasizes argumentation.

Unit types in grades 6–8

Each 6–8 grade features three types of units: LaunchCore, and Engineering Internships. Each year has one Launch unit, six Core units, and two Engineering Internships.

For teachers who want to supplement the lessons with even more hands-on activities, optional “flextension” activities are included in many units.

Yes indeed. Amplify Science California integrates all four STEM disciplines—science, technology, engineering, and math, in addition to English Language Arts—throughout the curriculum. In addition, each grade level features specific units that emphasize engineering design.

Yes, the program includes multiple opportunities for summative assessments.

End-of-unit assessments: At grades K–1 these look like targeted conversations, at grades 2–5 we incorporate written responses, and at grades 6–8 we assess through a combination of auto-scored multiple-choice questions and rubric-scored written responses. These summative assessments for each unit are designed to provide valid, reliable, and fair measures of students’ progress and attainment of three-dimensional learning.

Benchmark assessments: Delivered four times per year in grades 3–5 and three times per year in grades 6–8, benchmark assessments report on students’ facilities with each of the grade appropriate DCIs, SEPs, CCCs, and performance expectations of the California NGSS.

Science Seminars and final written arguments (formative and summative components): In grades 6–8, culminating performance tasks for each core unit invite students to figure out a new real-world problem. They collect and analyze evidence, examine a number of claims, and then engage in a full-class discussion where they must state which claims are best supported by the evidence, all while making clear their reasoning that connects the evidence to the claims. After the seminar, students then individually write their final scientific argument, drawing on the DCIs, SEPs, and CCCs they have used over the course of the unit to develop a sophisticated and convincing argument that addresses the problem they’ve been investigating. Rubrics, scoring guides, and examples of student responses at each scoring level are provided to teachers to support the assessment of students’ understanding of concepts and specific practices.

Amplify Science California provides more than enough instructional content to fill 180 days of instruction. However, unlike other programs that expect you to complete 180 discrete lessons, Amplify Science California includes built-in wiggle room.

For example, the typical elementary classroom delivers science instruction only two times per week. Rather than asking teachers to wade through unnecessary content, we designed our program to address 100 percent of the California NGSS in just 66 days at grades K–2 and 88 days at grades 3–5. When it comes to middle school, we address 100 percent of the California NGSS in 146 lessons.

Some classes might last longer than one session due to a number of reasons (e.g., enthusiastic student conversations, challenging topics requiring deeper dives, more time needed to accommodate diverse learners, etc.). Also, teachers might want to supplement Amplify Science California with some of their own favorite lessons. Lastly, we’ve accounted for the inevitable assembly days, class trips, testing schedules, etc. For teachers that want to go deeper or expand upon a unit topic, we also offer a number of additional lessons that are not core to each unit.

Amplify Science California lessons are designed to be completed in the following time frames:
Lessons in grades K–1 are designed for 45 minutes of science instruction.
Lessons in grades 2–5 are designed for 60 minutes of science instruction.

That said, it’s not a problem if you can’t allocate 45 minutes of science instruction every day at K–1, or 60 minutes per day at 2–5. Since there are a total of 66 lessons to address 100 percent of California NGSS at grades K–2, and 88 lessons to address 100 percent of California NGSS at grades 3–5, you can easily teach the lessons in smaller blocks and cover all of the content over the course of the school year.

Each lesson of every Amplify Science California unit includes point-of-use differentiation strategies and embedded teacher and student supports for diverse learners, including English learners, students who need more support, and students who are ready for more challenge. These strategies and methods ensure that all students have access to the same content as their peers.

Two notable categories of suggested modifications are:

  • English-learner-specific strategies such as English/Spanish glossaries, native language supports, and provision of cognates and other content-specific language scaffolds are provided in each unit.
  • Relatively small alterations and additional scaffolds that provide students with greater access to the content.
    These types of scaffolds benefit all learners and include suggestions such as providing graphic organizers, practice with multiple-meaning words, etc.

With Amplify Science California, the use of technology is always purposeful.

For example:

  • The curriculum has a strong emphasis on literacy, with students reading and analyzing informational texts, and writing scientific explanations and arguments.
  • Digital elements are gradually introduced to students in grades 2–3, with the greatest use of digital elements taking place in grades 4–5, as the phenomena at these grades become more challenging to observe directly.
  • The curriculum’s readers and interactive notebook pages are available in both print and digital across all K–5 units.

This curriculum addresses a significant number of the standards as they pertain to science. Throughout each unit, students read science texts, engage in science talk and argumentation, and write evidence-based science explanations. The curriculum supports vocabulary, language, and reading comprehension development. Students also use measurement tools with precision, record and analyze data, make sense of scientific phenomena, and develop solutions to problems experienced in the real world.

Digital questions

Teacher Support notes including sample teacher talk, student responses, pedagogical support, and possible student responses are provided within your student-facing slides. Simply click “Teach” and reference your private Teacher Guide tab. Students will only see the lesson slides that you are presenting.

You, the teacher, must “Start class” to launch the presentation tab. (Remember, without the presentation tab, students would be able to see your teacher notes.)

Clicking “Starting class” also brings students to the correct slide, which is particularly important for young students who are learning to navigate.

Teachers can either press the “End class” button in the bottom right corner of the slide navigation, or they can simply close the presentation tab.

Clicking “End class” also enables students to navigate through the lesson on their own. That means they’ll be able to return to slides and books to review content, to the Sims and Modeling Tools to replay them, or to notebook pages to update their work.

You can click on the “Student preview” option in the bottom right corner (within the menu that opens when you click the three dots) to open a new browser tab where you can preview the student view using your teacher account.

Any work you complete in this student preview (or elsewhere in the teacher experience) will be automatically saved to your account.

Looking for help?

For login or technology issues, please submit an EGUSD Heat ticket. For curriculum and pedagogical questions, please refer to the support resources below.

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We’ve developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans.
  • Information on where to locate standards and other planning materials.
  • Recommendations and tips for day-to-day teaching with Amplify programs.
  • Support with administering and interpreting assessment data and more.

To reach our pedagogical team, use our live chat within your program, call (800) 823-1969, or email edsupport@amplify.com

Timely technical and program support

Our technical and program support is included and available from 4 a.m. to 4 p.m. PT, Monday through Friday, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

For your most urgent questions:

  • Use our live chat within your program.
  • Call our toll-free number: (800) 823-1969.

For less urgent questions:

Email support

Connect with other teachers

Our Amplify Science Facebook group is a community of Amplify Science educators from across the country. It’s a space to share best practices, ideas, and support on everything from implementation to instruction. Join today.

Amplify Caminos for SFUSD

Amplify Caminos is an authentic elementary Spanish language arts program. Like its English language counterpart, Amplify CKLA, Amplify Caminos provides explicit, systematic foundational skills instruction sequenced with deep knowledge-building content to foster comprehension. When used with Amplify CKLA, Amplify Caminos provides full parity across English and Spanish that’s suitable for any dual language implementation model.

Colorful illustration featuring a child in traditional Andean clothing, tropical plants, a volcano, a toucan, a horse rider, and the word "Gracias!" written in Spanish.

Amplify and SFUSD Partnership

We recognize and respect the unique differences of each of our partnering districts—and that includes San Francisco USD.

Out of the box, Amplify Caminos offers districts a rich, comprehensive, research-based SELA experience. That said, no two districts are exactly alike. To that end, we are committed to working with San Francisco USD to ensure that Amplify Caminos addresses the needs of your community. This includes providing implementation guidance and support, as well as collaborating with your staff to determine which domains need to be modified or exchanged.

What is Amplify Caminos?

Amplify Caminos is a core Spanish language arts program for grades TK–5 that delivers:

  • Authentic instruction built from the ground up for the Spanish language.
  • A unique research-based approach truly built on the Science of Reading.
  • A combination of explicit foundational skills with meaningful knowledge-building.
  • Embedded support and differentiation that gets all students reading grade-level texts together.
  • Opportunities for students to see the strengths and experiences that all people share while also celebrating each others’ unique identities and experiences.

Watch the video below to learn more about Amplify Caminos for Grades K–2.

Watch the video below to learn more about Amplify Caminos for Grades 3–5.

How does Amplify Caminos work?

Amplify Caminos is built on the science of how kids learn to read—in Spanish.

Amplify Caminos is all about helping you teach students how to read, all while giving them authentic and engaging reasons to read. That’s why Amplify Caminos develops foundational skills and builds knowledge in tandem.

  • Knowledge: Through complex and authentic Spanish read-alouds with an emphasis on classroom interactivity, oral comprehension, and contextual vocabulary, students start to build their awareness of the world around them—and the way the reading skills they’re building give them access to it.
  • Skills: Starting with the sounds at the core of the Spanish
    language, students practice their phonemic awareness, handwriting skills, vocabulary, spelling, and grammar. Through daily practice, students become aware of the connection between reading and writing, building confidence as they go.
A diagram illustrating reading development as intertwined strands: language comprehension and word recognition, progressing from basic skills to increasingly strategic and automatic reading.

Respecting the development differences between grade ranges, Amplify Caminos teaches foundational skills and background knowledge as two distinct strands in grades K–2, and combines them into one integrated strand in grades 3–5.

Grades K–2:
Every day, students in grades K–2 complete one full lesson that explicitly and systematically builds foundational reading skills in the Amplify Caminos Lectoescritura strand, as well as one full lesson that builds robust background knowledge to access complex text in the Amplify Caminos Conocimiento strand. Through learning in each of these strands, students develop the early literacy skills necessary to help them become confident readers and build the context to understand what they’re reading.

Grades 3–5:
In grades 3–5, the Amplify Caminos Lectoescritura and Conocimiento strands are integrated in one set of instructional materials. Lessons begin to combine skills and knowledge with increasingly complex texts, close reading, and a greater writing emphasis. Students can then use their skills to go on their own independent reading adventures.

What do Amplify Caminos students explore?

Amplify Caminos builds students’ knowledge about the world.

In addition to teaching all students to crack the written code (which is vital for fairness), the Amplify Caminos program helps students see the strengths and experiences we all share while celebrating their own unique identities and experiences.

This is accomplished through the exploration of topics and text that feature people who resemble students and familiar situations or experiences while also exposing them to people whose appearances, lives, beliefs, and backgrounds differ from their own.

Engaging domains

Amplify Caminos builds knowledge coherently across subjects and grades.

Throughout the program, students use their skills to explore domains that relate to storytelling, science, and the history of our world as seen through the eyes of many different groups.

Carefully selected to build from year-to-year, our grade-appropriate topics help students make and deepen connections while also reading, writing, and thinking creatively and for themselves.

Curriculum flowchart showing reading themes and activities from Kindergarten to Grade 5, organized by grade level and literary theme, with interconnected boxes for each topic.

New Knowledge Research Units for Grades K–5

Our brand-new Knowledge Research units carry forward Amplify Caminos’ powerful and proven instructional approach while also:

  • Adding more content for students from all walks of life. The rich topics and highly visual components featured in these units provide students with even more “windows and mirrors” and perspectives as they work to build knowledge.
  • Adding more authentic literature. Each new research unit revolves around a collection of high-interest authentic trade books that will spark more curiosity and inspire more inquiry.
  • Adding more flexibility. Units can be implemented for extended core instruction during flex periods, district-designated Pausing Points, or enrichment periods.

Units cover a variety of rich and relevant topics:

With these new units, students will soar to new heights with Dr. Ellen Ochoa, Amelia Earhart, and the Tuskegee Airmen. They’ll feel the rhythm as they learn about Jazz legends Miles Davis, Tito Puente, and Duke Ellington. And they’ll explore the far reaches of the world with Jacques Cousteau, Matthew Henson, and Eugenie Clark.

  • Grade K: El arte y el mundo que nos rodea
  • Grade 1: Cuentos de aventuras: relatos desde los confines de la Tierra
  • Grade 2: ¡A volar! La era de la aviación
  • Grade 3: Jazz y más
  • Grade 4: Energía: pasado, presente y futuro
  • Grade 5: Más allá de Juneteenth: de 1865 al presente

Units will be made available in English and Spanish, and will include the following components:

  • Teacher Guide
  • Student Activity Books
  • Image Cards
  • Trade Book Collection
  • Digital Components (for Grades K–3 and Grade 5 only)

Why we added this unit:
“Every child is an artist,” said Picasso, meaning that every child uses art to explore and understand the world around them. El arte y el mundo que nos rodea honors that truth by introducing Kindergarten students to some of the ways in which artists have explored and understood the world around them.

This domain introduces students to artists from different time periods, countries, and cultures. Throughout the unit, students learn about different kinds of art and how artists use the world around them as they make art. They also connect this to what they have already learned about the earth, plants, and animals in other Caminos domains: GranjasPlantas, and Cuidar el planeta Tierra. In addition, students connect this to what they have learned about sculptors in the Presidentes y símbolos de los Estados Unidos domain. As they explore different artists and artistic traditions, they develop their ideas about how humans are connected to each other and to the world around them.

As you read the texts in this unit, students may observe ways in which the characters or subjects are both similar to and different from students. This is a good opportunity to teach students awareness and sensitivity, building on the idea that all people share some things in common, even as they have other things that make them unique. This unit also offers an excellent opportunity to collaborate with your school’s art teacher, as many lessons have suggested activities to help students understand the kind of art they are studying.

Within this unit, students have opportunities to:

  • Use details to describe art.
  • Identify three ways to create art.
  • Identify characteristics of cave art.
  • Sequence the steps of making pottery.
  • Describe how artists can create work connected to the world around them.
  • Describe what makes Kehinde Wiley’s portraits unique.
  • Explain how the texture of a surface can affect artwork created on it.
  • Explain what a sculpture is.
  • Describe what makes James Turrell’s artwork about the sky unique.
  • Explain what a museum is and what kinds of things you can see or do there.

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • Georgia O’Keeffe por Erica Salcedo
  • Yayoi Kusama: De aquí al infinito por Sarah Suzuki
  • Tejedora del arcoíris por Linda Elovitz Marshall
  • Las tijeras de Matisse por Jeanette Winter
  • El museo por Susan Verde
  • Quizás algo hermoso: Cómo el arte transformó un barrio por F. Isabel Campoy

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Why we added this unit:
This domain introduces students to adventure stories set around the world and challenges students to dig into the adventures through research. By listening to the Read-Alouds and trade books, students increase their vocabulary and reading comprehension skills, learn valuable lessons about perseverance and teamwork, and become familiar with gathering information for research.

In this unit, students study the careers of real-world explorers Dr. Eugenie Clark and Sophia Danenberg, marvel at the inventions of Jacques Cousteau, think critically about how teamwork and collaboration can make greater adventures possible, learn about the science and technology that enable adventures, and research some of the ways humans have confronted challenges at the edges of the world, from the oceans below to space above.

Each lesson in the domain builds students’ research skills as they ask questions, gather information, and write a paragraph about their findings. Students share what they have learned about adventures in an Adventure Gallery Walkthrough. By taking on the persona of one of the adventurers they meet in the Read-Alouds and trade books, students deliver their final paragraphs as if they are a “speaking portrait” of that person. Students are invited to dress up as that adventurer if they desire.

In addition, teachers can set aside time outside the instructional block to create the picture frames students will hold as they present to the Adventure Gallery Walk guests. Frames can be made from shirt boxes, cardboard, construction paper, or any art supplies that are on hand. This might be an opportunity to collaborate with the school’s art department if resources are available. Another option is to ask students to make their frames at home with their caregivers. On the day of the Adventure Gallery Walk, students will be the hosts and take on specific jobs, such as welcoming the guests, describing their work throughout the unit, and pointing out the areas of study on the domain bulletin board. You can find a complete list of student jobs in Lesson 13.

How this unit builds knowledge:
This unit builds upon the following Caminos units that students will have encountered in the previous grade.

  • Rimas y fábulas infantiles (Kindergarten)
  • Cuentos (Kindergarten)

The specific core content targeted in these domains is particularly relevant to the Read-Alouds students will hear in Cuentos de aventuras: relatos desde los confines de la Tierra. The background knowledge students bring to this unit will greatly enhance their understanding of the trade books used in this unit.

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • My Name Is Gabito/Me llamo Gabito por Monica Brown
  • Galápagos Girl/Galapagueña por Marsha Diane Arnold
  • My Name Is Gabriela/Me llamo Gabriela por Monica Brown
  • El viaje de Kalak por María Quintana Silva y Marie-Noëlle Hébert
  • Señorita Mariposa por Ben Gundersheimer
  • Sharuko, el arqueólogo peruano/Peruvian Archaeologist Julio C. Tello por Monica Brown
  • Abuelita fue al mercado por Stella Blackstone

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Why we added this unit:
With this domain, students head up, up, and away with an introduction to the soaring history of aviation. Students learn the stories of early aviators, such as the Montgolfier brothers, the Wright brothers, Aida de Acosta, and Amelia Earhart.

During the unit, students study the science of flight, including the physics concept of lift, and research the social impacts of the world of flight. Finally, students let their research skills take flight as they explore key figures from the world of aviation.

The lessons in this domain build on earlier Grade 2 Caminos domains about the westward expansion, early Greek civilizations, and Greek myths, and lay the foundation for learning about other periods of world history in future grades.

How this unit builds knowledge:
This unit builds upon the following Caminos units that students will have encountered earlier in the year.

  • La civilización griega antigua (Grade 2)
  • Mitos griegos (Grade 2)
  • La expansión hacia el oeste (Grade 2)

The specific core content targeted in these domains is particularly relevant to the Read-Alouds students will hear in ¡A volar! La era de la aviación. The background knowledge students bring to this unit will greatly enhance their understanding of the trade books used in this unit.

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • ¡A volar! Todo sobre aviones por Jennifer Prior
  • Amelia sabe volar por Mara dal Corso
  • Héroes de la aviación que cambiaron el mundo por Dan Green
  • El niño que alcanzó las estrellas por José M. Hernández
  • La niña que aprendió a volar por Sylvia Acevedo
  • Buenas Noches Capitán Mamá por Graciela Tiscareño-Sato

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Why we added this unit:
This domain teaches students about the vibrant music, poetry, and culture of the Jazz Age in the United States. Students learn about famous writers and musicians like Langston Hughes, Louis Armstrong, Billie Holiday, Melba Liston, Tito Puente, and Miles Davis. They study how the jazz art form took root in the South, then spread to the North to become the sound of the Harlem Renaissance, eventually connecting people around the world in musical expression.

During this unit, students perform guided research to further explore both the history of jazz and what jazz is today. They develop research skills and then use those skills to find deeper connections between the stories and music of the Jazz Age and music today. As students learn about the world of jazz, they collaborate and share ideas with their classmates. They also practice sharing feedback focused on their written work, and, at the end of the unit, students present their research to the group.

The lessons give students opportunities to dive into the rhythms and stories of jazz, utilizing the knowledge sequence in this unit to:

  • Collaboratively generate research questions about jazz, jazz musicians, contemporary musicians from the state where they live or have lived, and the evolution of jazz music.
  • Utilize Read-Alouds, independent reading, and partner reading to learn about the Jazz Age, the Harlem Renaissance, jazz music, and biographies of celebrated jazz musicians and writers.
  • Research the answers to their generated questions, gather information, write a short research essay about a famous jazz musician, write a short essay about a contemporary musician from the state where they live or have lived, and give a presentation about their research.

How this unit builds knowledge:
Within this unit, students have opportunities to:

  • Ask relevant questions and make pertinent comments
  • Identify details in texts
  • Determine key ideas of texts by evaluating details
  • Make text-based inferences
  • Generate questions based on prior knowledge and gathered information
  • Synthesize details across texts to demonstrate comprehension
  • Discuss and explain an author’s purpose
  • Identify and cite reliable primary and secondary sources of information
  • Compose a well-organized and focused informative essay
  • Make connections between topics
  • Present information using appropriate media

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • ¡Esquivel! Un artista del sonido de la era espacial por Susan Wood
  • Ray Charles por Sharon Bell Mathis
  • Tito Puente, el Rey del Mambo por Monica Brown
  • Me llamo Celia, la vida de Celia Cruz por Monica Brown
  • ¡Azúcar! por Ivar Da Coll

In this unit, students also read the poem “Harlem” by Langston Hughes. (Available for free through the Academy of American Poets website and the Poetry Foundation website, with recorded audio available through the website for John Hancock College Preparatory High School.)

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Why we added this unit:
With this domain, students become tomorrow’s problem solvers in this study of energy in the United States. Analytical reading skills are developed by examining the challenges of early energy innovators. Students then read about current energy practices and young energy change-makers across the world.

Throughout the unit, students conduct research into different sources of energy and present a proposal, putting them in the shoes of future energy innovators. They also use the knowledge sequence in this unit to:

  • Collaboratively analyze texts to identify cause-effect and problem-solution relationships.
  • Generate questions and conduct research about energy.
  • Write an opinion essay making their case for a fuel of the future.
  • Create energy proposals using primary and secondary resources.

How this unit builds knowledge:
This unit builds upon the following Caminos units that students will have encountered in previous grades as well as earlier in the year.

  • Plantas (Grade K)
  • La historia de la Tierra (Grade 1)
  • ¡Eureka! Estudiante inventor (Grade 4)

The specific core content targeted in these domains is particularly relevant to the Read-Alouds students will hear in Energía: pasado, presente y futuro. The background knowledge students bring to this unit will greatly enhance their understanding of the trade books used in this unit.

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • La historia de los combustibles fósiles por William B. Rice
  • El niño que domó el viento por William Kamkwamba y Bryan Mealer

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Why we added this unit:
Within this domain, Students learn about General Granger’s announcement in Galveston, Texas on June 19, 1865, a day marked in history as Juneteenth. Texts and multimedia sources will support foundational knowledge-building about the end of slavery in the United States. A review of the first freedom announcement, President Lincoln’s Emancipation Proclamation, provides students with background knowledge to further emphasize the significance of Juneteenth in American history.

This unit also takes students on a journey beyond Juneteenth, as they study specific contributions of African Americans from 1865 to the present day. Students participate in a virtual field trip to Emancipation Park in Houston, Texas and use the knowledge sequence in this unit to:

  • Collaboratively generate research questions about Juneteenth, The Great Migration, innovators and inventors, education, the humanities, activists, and allies.
  • Use Read-Alouds, independent, and partner reading to learn about African American contributions from 1865 to the present.
  • Research to find answers to their generated questions, gather information, and write a four-chapter Beyond Juneteenth book.

How this unit builds knowledge:
This unit builds upon the following Caminos units that students will have encountered in previous grades.

  • Los nativos americanos (Grade K)
  • Una nueva nación: la independencia de los Estados Unidos (Grade 1)
  • La Guerra Civil de los Estaods Unidos (Grade 2)
  • La inmigración (Grade 2)
  • Los nativos americanos (Grade 5)

The specific core content targeted in these domains is particularly relevant to the Read-Alouds students will hear in Más allá de Juneteenth: de 1865 al presente
. The background knowledge students bring to this unit will greatly enhance their understanding of the trade books used in this unit.

Trade books in this unit:
Instruction in this unit revolves around the following collection of high-interest authentic trade books. One copy of each trade book is included with the unit materials.

  • Martí’s Song for Freedom/Martí y sus versos por la libertad escrito por Emma Otheguy
  • ¡Celebremos Juneteenth! escrito por Carole Boston Weatherford
  • Side by Side/Lado a Lado: The Story of Dolores Huerta and Cesar Chavez/La Historia de Dolores Huerta y César Chávez escrito por Monica Brown
  • Canto de alabanza para el día: Poema para la ceremonia inaugural del mandato de Barack Obama escrito por Elizabeth Alexander, traducido por Rodrigo Rojas

Sample materials:
Take a sneak peek at the rich instruction and engaging activities for this unit by viewing the PDFs below.

Wide-ranging texts

Amplify Caminos puts a variety of texts in the hands of students every day.

Amplify Caminos includes both transadaptations and authentic texts written by Latin American and Spanish authors. Our texts feature a wide variety of authors, topics, individuals and characters representing many different socioeconomic statuses, ages, abilities, races, ethnicities, countries of origin, religions, and more.

Amplify Caminos texts include:

  • Authentic literature: Authentic literature exposes students to a variety of text types and perspectives to deepen their knowledge of fascinating topics in social studies, science, literature, and the arts. Authentic texts support text-to-self, text-to-world, and text-to-text connections for readers.
  • Decodable Student Readers: Decodable Student Readers at grades K–2 are newly redesigned to include students from all walks of life and educational backgrounds. They feature characters with a broad range of backgrounds, experiences, ages, races, religions, and more.
  • ReadWorks® texts: Amplify and ReadWorks have partnered to deliver high-quality texts curated to support the Amplify Caminos Knowledge Sequence and to extend student learning. Texts include high-interest nonfiction articles in topics in social studies, science, literature, and the arts. These texts are accompanied by vocabulary supports and standards-aligned formative assessment opportunities. Teachers can monitor their students’ progress using the ReadWorks reporting features.
Three children's book covers in Spanish are shown: "La Flor de Oro," "El conejo en la Luna," and "El secreto de las hormigas," each featuring illustrated artwork.

Amplify Caminos Trade Book Collection Guide

Each book in our authentic literature collection was selected specifically to support and enhance the content of the K-2 Conocimiento Strand. These anchor texts are intended for use as an introduction to each domain—engaging students, piquing their curiosity, and building initial background knowledge—before diving into the deeper content of the domain Read-Alouds.

Every trade book has an instructional guide that includes the following:

  • Author and illustrator
  • Book summary
  • The Essential Question of the Knowledge domain, connecting the book to the domain
  • Key Tier 2 and Tier 3 vocabulary words found in the book
  • A group activity to reinforce and extend students’ knowledge and understanding
  • A performance task to help gauge students’ comprehension of concepts in the text
  • Writing prompts to expand understanding and critical thinking
  • Text complexity ratings and descriptors for quantitative, qualitative, and reader/task categories

Download the Amplify Caminos Trade Book Collection Guide for Grades K–2.

Detailed information about text complexity ratings and descriptors; additional uses for the books before, during, and after domain instruction; and the complete list of domains and books for each grade level can be found in the More About the Books section of this guide.

What makes Amplify Caminos different?

Built on the Science of Reading

Built out of the latest research in the Science of Reading, Amplify Caminos delivers explicit instruction in both foundational literacy skills (systematic phonics, decoding, and fluency) and background knowledge in grades K–2 with an integrated approach to explicit instruction in grades 3–5.

Flowchart showing "Language comprehension" times "Word recognition" equals "Skilled reading," with text in both Spanish and English inside orange boxes.

Explicit systematic skills instruction

The skills instruction in Amplify Caminos was distinctly developed with the Spanish language in mind. Its foundational lessons are specific to the language, rather than a direct translation from Amplify CKLA’s English skills instruction.

Reading instruction begins with the vowels first, then the most common consonants, and finally the least common consonants. Students will blend and segment sounds to form syllables, and syllables to form words.

Although Spanish has a highly predictable orthography, there are a few silent letters (h is always silent, u is silent after g or q), as well as letters that can make different sounds, depending on the letters that follow them. For that reason, syllables with these letters are taught somewhat later in the progression. The same is true for syllables with infrequently occurring consonants, such as z, k, x, and w.

Coherent knowledge instruction

While students are learning how to read, the Conocimiento strand gives them authentic and engaging reasons to read.

Amplify Caminos uses spiral learning to reinforce every student’s ability to develop skills like reading, writing, speaking, and listening in Spanish that can be transferred to English. As students engage with their lessons, they explore the similarities and differences in grammar, vocabulary, writing, and language use between Spanish and English. This bridge helps students learning two languages to strengthen their knowledge in both.

Through cross-curricular content, students explore units that relate to storytelling, science, and the history of our world in a holistic and thoughtful way. With these units, you’ll bring the world to your students, showing them how reading can become an exciting, rewarding, and useful part of their lives.

Embedded differentiation for all learners

Amplify Caminos provides built-in differentiation strategies and supports in every lesson.

  • Apoyo a la enseñanza y desafío: Support and Challenge suggestions in every lesson provide assistance or opportunities for more advanced work toward the goal of the lesson.
  • Notas culturales: These point-of-use notes provide additional information about the traditions, foods, holidays, word variations, and more from across the Spanish-speaking world.
  • Apoyo adicional: Every lesson in the Lectoescritura (Skills) Strand provides additional support activities suggested to reinforce foundational skills instruction. These activities can be given to any student who requires extra help, including students with special needs.

Systematic and cohesive writing instruction

Writing instruction in Amplify Caminos builds systematically and cohesively within and across grades.

In Grades K-2, writing mechanics—including handwriting and spelling—are taught in the Amplify Caminos Lectoescritura strand. Starting in Grade 1, instruction includes four steps in the writing process: planning, drafting, editing, and publishing and features lessons that have modeling, collaboration, and sharing. As students gain skills and confidence, they are able to take on more of these steps independently. Students learn to use planning techniques, including brainstorming and graphic organizers.

Beginning in Grade 4, the Amplify Caminos writing process expands to also include sharing and evaluating. In Grades 4 and 5, the writing process is no longer conceptualized as a series of scaffolded, linear steps (an important change from the Grade 3 writing process). Rather, students move between components of the writing process in a flexible manner, similar to the process mature and experienced writers follow naturally.

young male students writing with a pencil

Amplify Caminos’ writing instruction provides a clear progression through the text types in each grade.

Because Amplify Caminos has two strands of lessons in Grades K-2, Lectoescritura and Conocimiento, students are exposed to both narrative and informational texts throughout the year. In Grades 3-5, the integrated units feature study in literary, informational, or a mix of both types of texts, depending on the content of the unit.

  • Grades K–2 introduce and establish the key elements of each text type, allowing students to gain comfort and confidence writing narratives, opinions, and informative texts. This enables students to practice thinking about content in different ways, offering more depth and breadth to their understanding of core content and of the writing text types.
  • By Grade 3, students will have gained significant practice in narrative, opinion/argumentative, and informational/explanatory forms of writing and will continue to apply those skills through Grade 5.

How does Amplify Caminos integrate with the other parts of the literacy system?

Amplify Caminos + mCLASS® Lectura

Achieve complete parity between English and Spanish assessments with mCLASS Lectura for K–6. mCLASS Lectura allows teachers to connect with their Spanish-speaking students face-to-face, one-on-one, and in the language most comfortable to them. The result? Valid and reliable student data reports
available in both English and Spanish, enabling teachers to pinpoint where their Spanish-speaking or emergent bilingual students really are in their skill development and what instruction to prioritize.

A laptop screen displays a slide describing the Lectura data-driven instructional cycle with sections for Assessment, Reporting, and Instruction, each illustrated with sample interface screenshots.

Amplify Caminos + Amplify Reading

Amplify Reading is an engaging, adaptive digital program that extends the learning in Amplify Caminos. Amplify Reading offers support to a large sub-group of English learners (ELs) through Spanish voice-over. Spanish voiceover instructions are available in vocabulary and sentence-level comprehension games so ELs can build their vocabulary, language, and critical comprehension skills before moving into analyzing complex texts

Language selection screen with options for English and Spanish, and an illustrated girl saying “¡Hola!” in a speech bubble. The heading reads “Idiomas.”.

Demo access and sample materials

Ready to explore on your own? First, watch the videos below to learn about the program’s components and how to navigate the digital platform.

Physical materials walkthrough video

Digital navigation video

Demo access

Next, follow the instructions below to access your demo account.

  • Click the CKLA and Caminos Demo button below.
  • Select Log in with Amplify.
  • To explore as a teacher, enter this username: t1.sfusdreviewer@demo.tryamplify.net
  • To explore as a student, enter this username: s1.sfusdreviewer@demo.tryamplify.net
  • Enter the password: Amplify1-sfusdreviewer
  • Click the Programs and apps menu
  • Select CKLA Teacher Resource Site
  • Select the desire grade level
  • Use the toggle to switch between English (CKLA) and Spanish (Caminos) resources.
CKLA and Caminos Demo

Sample materials

Finally, click on the grade levels below to explore your requested sample units.

Conocimiento Strand:

Lectoescritura Strand:

Conocimiento Strand:

Lectoescritura Strand:

Integrated Strand

Additional resources

Welcome, Idaho K-8 Science Reviewers!

Thank you for taking the time to review Amplify Science. On this site, you’ll find all the resources you need to learn more about this engaging and robust NGSS program. Below, you will also have the opportunity experience our program firsthand with a demo account to access the digital platform.

Amplify Science for grades K–8 has been rated all-green by EdReports. Read the review on EdReports.

Collage of educational settings: top left, two young girls using laptop in library; bottom right, middle school science project display on tablet; bottom left, two boys with tablet discussing.

Overview

With Amplify Science, students don’t just passively learn about science concepts. Instead, they take on the roles of scientists and engineers to actively investigate and make sense of real-world phenomena. They do this through a blend of cohesive and compelling storylines, hands-on investigations, collaborative discussions, literacy-rich activities, and interactive digital tools.

Listen to these educators share how the program empowers students to think, read, write, and argue like real scientists and engineers every day.

Grades K–5

Grades 6–8

Amplify Science Grades K-5 Tour for Idaho Educators

Amplify Science Grades 6-8 Tour for Idaho Evaluators

Proven to work

Click here to read about the efficacy and impact of Amplify Science.

Two young girls sit on the floor in a classroom, smiling as they read a book together. Classroom decorations and another student are visible in the background.

Program structure

Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon. It’s this proven program structure and lesson design that enables Amplify Science to teach less, but achieve more.

Rather than asking teachers to wade through unnecessary content, we designed our program to address 100 percent of the NGSS and Idaho Standards in fewer days than other programs:

  • In just 120 lessons at grades 6–8
  • In just 66 lessons at grades K–2
  • In just 88 lessons at grades 3–5
A four-step process diagram with icons: spark a real-world problem, explore sources, explain and elaborate, and evaluate claims, all linking to engage with cohesive storylines.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also emphasizing a particular science and engineering practice.

A laptop and two screens display educational content about ecosystems, featuring illustrated plants, animals, and experiments with colorful liquids.
Two young students sit at a classroom table, one holding up a clear cup of water while the other observes closely. Papers and pencils are spread out on the table.

Investigation units

Investigation units focus on the process of strategically developing investigations and gathering data to answer questions. Students are first asked to consider questions about what happens in the natural world and why, and are then involved in designing and conducting investigations that produce data to help answer those questions.

Two children play an educational board game at a table with worksheets, plastic cubes, and small containers of colored items.

Modeling units

Modeling units provide extra support to students engaging in the practice of modeling. Students use physical models, investigate with computer models, and create their own diagrams to help them visualize what might be happening on the nanoscale.

Two children sitting at a table with laptops are talking to each other in a classroom setting, with books and baskets in the background.

Engineering Design units

Engineering design units provide opportunities for students to solve complex problems by applying science principles to the design of functional solutions, and iteratively testing those solutions to determine how well they meet preset criteria.

Several open textbooks and notebooks are spread out on a table as a person writes in one of the notebooks with a pencil.

Argumentation units

Argumentation units are introduced at grade 3 and provide students with regular opportunities to explore and discuss available evidence, time and support to consider how evidence may be leveraged in support of claims, and independence that increases as they mount written arguments in support of their claims.

A person points to a photo in a textbook about coral reefs, with a laptop and notebook open on the desk.

Launch units

Launch units are the first units taught in each year of Amplify Science. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

Three students at a classroom table examine a sealed plastic bag with food inside, while one looks surprised; another student stands in the background.

Core units

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Four students sit at a table using laptops, focused on their screens in a classroom setting with one student in the background.

Engineering Internship units

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Idaho Science Standards Alignment

Amplify Science was built from the ground up to fully embrace the instructional shifts outlined in A Framework for K-12 Science Education (2012), the same framework on which Idaho Science Content Standards were founded. Most grade levels’ respective set of Amplify Science units therefore fully address the necessary Idaho Science Content Standards (see correlation). Grade 1 teachers should plan to also use the companion mini-lesson provided below to achieve full standards coverage for their grade.

Grade 1 Companion

Standard: 1-LS-1.3 Use classification supported by evidence to differentiate between living and non-living things.

Recommended placement: Following Lesson 1.1 of the Animal and Plant Defenses unit.

Resources: Classroom Slides

Download Correlation

Science (K-2) Evaluation Form

Science (3-5) Evaluation Form

Science (Middle School Physical Science) Evaluation Form

Science (Middle School Life Science) Evaluation Form

Science Evaluation Form Middle School Earth and Space Science

A boy sits on the floor reading a book to a girl beside him in a classroom setting.
A butterfly flies above potted plants next to a watering can and a caterpillar on a milkweed plant under sunlight in a grassy field.

Needs of Plants and Animals

Domains: Life Science, Earth and Space Science, Engineering Design

Unit type: Investigation

Student role: Scientists

Phenomenon: There are no monarch caterpillars in the Mariposa Grove community garden since vegetables were planted.  

A hand pulls a white string attached to a pegboard with rubber bands and a white ball hanging from the center.

Pushes and Pulls

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Pinball engineers

Phenomenon: Pinball machines allow people to control the direction and strength of forces on a ball.  

Silhouette of a playground structure and toy train against a blue sky with clouds and two large yellow suns.

Sunlight and Weather

Domains: Earth and Space Science, Life Science, Engineering Design

Unit type: Modeling

Student role: Weather scientists

Phenomenon: Students at Carver Elementary School are too cold during morning recess, while students at Woodland Elementary School are too hot during afternoon recess.  

Illustration of sea turtles swimming among underwater plants, with a shark and another turtle visible in the background.

Animal and Plant Defenses

Domain: Life Science

Unit type: Modeling

Student role: Marine scientists

Phenomenon: Spruce the Sea Turtle lives in an aquarium and will soon be released back into the ocean, where she will survive despite ocean predators.  

A hand holds a flashlight and shines it through a transparent sheet with an image, projecting the image onto a wall in a dark room.

Light and Sound

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Light and sound engineers

Phenomenon: A puppet show company uses light and sound to depict realistic scenes in puppet shows.  

A split illustration shows a cityscape at night with a crescent moon and stars on the left, and a cityscape during the day with the sun, clouds, and an airplane on the right.

Spinning Earth

Domain: Earth and Space Science

Unit type: Investigation

Student role: Sky scientists

Phenomenon: The sky looks different to Sai and his grandma when they talk on the phone.  

A grey elephant uses its trunk to pick apples from a tree, with a few apples still hanging on the branches and a small sprout growing nearby.

Plant and Animal Relationships

Domains: Life Science, Engineering Design

Unit type: Investigation

Student role: Plant scientists

Phenomenon: No new chalta trees are growing in the fictional Bengal Tiger Reserve in India.  

A hand picks up a red bean from a table scattered with more red beans, spilled white liquid, a cup, and a wooden stick.

Properties of Materials

Domains: Physical Science, Engineering Design

Unit type: Engineering design

Student role: Glue engineers

Phenomenon: Different glue recipes result in glues that have different properties.  

A building labeled "Recreation Center" stands near a cliff edge with a blue flag, surrounded by trees and overlooking a beach and water.

Changing Landforms

Domain: Earth and Space Science

Unit type: Modeling

Student role: Geologists

Phenomenon: The cliff that Oceanside Recreation Center is situated on appears to be receding over time.  

Illustration of a high-speed train traveling on an elevated track with a green landscape and blue sky in the background.

Balancing Forces

Domain: Physical Science

Unit type: Modeling

Student role: Engineers

Phenomenon: The town of Faraday is getting a new train that floats above its tracks.  

A group of wolves stands in the foreground, with a bear, elk, and several birds visible in a grassy, hilly landscape with scattered trees.

Inheritance and Traits

strong>Domain: Life Science

Unit type: Investigation

Student role: Wildlife biologists

Phenomenon: An adopted wolf in Graystone National Park (“Wolf 44”) has some traits that appear similar to one wolf pack in the park and other traits that appear to be similar to a different wolf pack. 

A small bird stands on soil, looking closely at a yellow snail, with green blades of grass on the left and a blue sky background.

Environments and Survival

Domains: Life Science, Engineering Design

Unit type: Engineering design

Student role: Biomimicry engineers

Phenomenon: Over the last 10 years, a population of grove snails has changed: The number of grove snails with yellow shells has decreased, while the number of snails with banded shells has increased.  

An orangutan hangs from a vine in a dense green forest with the sun visible in the background.

Weather and Climate

Domains: Earth and Space Science, Engineering Design

Unit type: Argumentation

Student role: Meteorologists

Phenomenon: Three different islands, each a contender for becoming an Orangutan reserve, experience different weather patterns.  

Illustration of city buildings at night with illuminated windows, a full moon, visible stars, and a silhouetted figure in one window.

Energy Conversions

Domains: Physical Science, Earth and Space Science, Engineering Design

Unit type: Engineering design

Student role: System engineers

Phenomenon: The fictional town of Ergstown experiences frequent blackouts.  

A streetlamp illuminates a cricket, which is watched by a gecko. Yellow arrows indicate the flow of light from the lamp to the cricket and then to the gecko’s eye.

Vision and Light

Domain: Physical Science, Life Science, Engineering Design

Unit type: Investigation

Student role: Conservation biologists

Phenomenon: The population of Tokay geckos in a rain forest in the Philippines has decreased since the installation of new highway lights.  

Two dolphins swimming underwater, facing each other against a blue background.

Waves, Energy, and Information

Domains: Physical Science, Life Science, Earth and Space Science, Engineering Design

Unit type: Modeling

Student role: Marine scientists

Phenomenon: Mother dolphins in the fictional Blue Bay National Park seem to be communicating with their calves when they are separated at a distance underwater.

Earth orbits the Sun in space, with dotted blue lines showing the orbital path and a white arrow indicating Earth's rotation direction.

Patterns of Earth and Sky

Domains: Physical Science, Earth and Space Science

Unit type: Investigation

Student role: Astronomers

Phenomenon: An ancient artifact depicts what we see in the sky at different times — the sun during the daytime and different stars during the nighttime — but it is missing a piece.  

Illustration of layered red and brown rocky cliffs beside a flowing blue river under a partly cloudy sky.

Earth’s Features

Domain: Earth and Space Science

Unit type: Argumentation

Student role: Geologists

Phenomenon: A mysterious fossil is discovered in a canyon within the fictional Desert Rocks National Park.  

Red blood cells scattered across a dynamic, abstract red and white background.

Modeling Matter

Domain: Physical Science

Unit type: Modeling

Student role: Food scientists

Phenomenon: Chromatography is a process for separating mixtures. Some solids dissolve in a salad dressing while others do not. Oil and vinegar appear to separate when mixed in a salad dressing.  

Illustration of wind carrying airborne particles over a coastal hill, with arrows indicating the movement up and over the hill toward the sea.

The Earth System

Domains: Earth and Space Science, Physical Science, Engineering Design

Unit type: Engineering Design

Student role: Water resource engineers

Phenomenon: East Ferris, a city on one side of the fictional Ferris Island, is experiencing a water shortage, while West Ferris is not. 

Illustration of a cheetah standing near plants, looking at a sloth hanging from a tree branch, with various foliage and mushrooms in the scene.

Ecosystem Restoration

Domains:Physical Science, Life Science, Earth and Space Science, Engineering Design

Unit type: Argumentation

Student role: Ecologists

Phenomenon: The jaguars, sloths, and cecropia trees in a reforested section of a Costa Rican rain forest are not growing and thriving.  

A rover stands on a rocky, reddish terrain with visible tire tracks leading to it; distant hills are seen under a hazy sky.

Geology on Mars

Domain: Earth and Space Science

Unit type: Launch

Student role: Planetary geologists

Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable.  

Illustration of a city skyline at night with a large full moon, a few stars in the sky, and a bridge on the left side.

Earth, Moon, and Sun

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Astronomers

Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.  

Illustration of a person wearing a red hat and winter coat with fur hood, eyes closed and arms crossed, surrounded by large orange circles.

Thermal Energy

Domain: Physical Science

Unit type: Core

Student role: Thermal scientists

Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school.  

Abstract digital artwork featuring a large yellow sun with blue and orange rays over a colorful landscape with green hills and red horizon.

Ocean, Atmosphere, and Climate

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Climatologists

Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.  

Illustration of clouds above a small town with fields and mountains, showing wind patterns and atmospheric movement in the sky.

Weather Patterns

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Forensic meteorologists

Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.  

An underwater scene with a large whale, several turtles, jellyfish, and fish swimming surrounded by shafts of light.

Populations and Resources

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The size of the moon jelly population in Glacier Sea has increased.  

Low-poly illustration of a forest with trees, mushrooms, a rabbit, and a fox catching another animal under a blue sky with mountains and the sun in the background.

Matter and Energy in Ecosystems

Domains: Life Science, Earth and Space Science, Physical Science

Unit type: Core

Student role: Ecologists

Phenomenon: The biodome ecosystem has collapsed.

Illustration of six spiders with different colored bodies and legs arranged in a chart-like formation on a dark background.

Traits and Reproduction

Domain: Life Science

Unit type: Core

Student role: Biomedical students

Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.  

Abstract digital artwork featuring vibrant colors, geometric shapes, a yellow human silhouette, and various patterns layered together.

Microbiome

Domain: Life Science

Unit type: Launch

Student role: Microbiological researchers

Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.  

Illustration of a person receiving an oral examination with a tongue depressor and light, featuring abstract colorful shapes and an eye chart in the background.

Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

Phenomenon: Elisa, a young patient, feels tired all the time. 

A spacecraft approaches a large modular space station with blue solar panels, orbiting in outer space against a black background.

Force and Motion

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.

Green geometric background with a hexagonal badge displaying a parachute, ruler, letter A, stacked layers, bandage, and a folded paper icon.

Force and Motion Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents.  

Two prehistoric aquatic reptiles with long snouts swim near the shore of a tropical landscape with rocks, plants, and an island in the distance.

Plate Motion

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.  

Illustration of a volcanic landscape with mountains, trees, an ocean, and a cross-section showing tectonic plates beneath the surface.

Rock Transformations

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.  

Four low-poly dinosaurs, three green and one yellow, are walking in a row on grass with rocks and red spots on their bodies under a blue sky.

Natural Selection

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The newt population in Oregon State Park has become more poisonous over time.  

Two large tortoises are near a river; one is on the riverbank reaching for leaves on a tree, while the other is on the opposite bank among grass and trees.

Evolutionary History

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Paleontologists

Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.    

Two people stand atop rocky terrain littered with electronic devices; inset illustrations show a boot, a person with electronics in a vest, and a radio.

Harnessing Human Energy

Domains: Physical Science, Earth and Space Science, Engineering Design

Unit type: Launch

Student role: Energy scientists

Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.  

An orange popsicle melting in four stages from solid to almost fully liquid, set against a plain background.

Phase Change

Domains: Physical Science, Earth and Space Science

Unit type: Core

Student role: Chemists

Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart.  

Green graphic with icons showing a swaddled baby, a thermometer, layers of blankets, a medical symbol, and a heat source within a hexagonal frame.

Phase Change Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Chemical engineering interns

Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature.  

Digital illustration showing red and blue molecule-like circles on a blue background, with a boundary dividing two differently shaded sides.

Chemical Reactions

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Forensic chemists

Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.  

Illustration of people riding a roller coaster on a blue day, with arms raised as the car descends a tall loop against a sky with clouds.

Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: During a test launch, a spacecraft traveled much faster than expected.  

Illustration of the Earth with arrows representing radiation or energy entering the atmosphere from space over the Asia-Pacific region.

Light Waves

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Spectroscopists

Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.  

An illustrated polar bear stands on a small piece of floating ice in the ocean, with icebergs and an orange sun in the background.

Earth’s Changing Climate

Domains: Earth and Space Science, Life Science

Unit type: Core

Student role: Climatologists

Phenomenon: The ice on Earth’s surface is melting.

Hexagonal badge with icons including a wrench, building, sun, molecules, construction materials, screwdriver, paint bucket, and a letter T, all on a geometric blue background.

Earth’s Changing Climate Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Civil engineers

Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.  

Access program

In addition to the grade-level sample boxes that we provided, we’ve also created custom demo accounts just for Idaho reviewers.

To access the digital portion of the program, click the link below, select “Log In with Amplify,” and then refer to the Start here digital access flyer for your personalized login credentials.

Access digital program
A spiral-bound teacher’s guide and a laptop displaying a digital curriculum, both titled “Balancing Forces: Investigating Floating Trains” from Amplify Science.

Tutorial videos

Check out these videos for support on how to navigate the Amplify Science curriculum website, teacher’s guide, materials kits, and more!

Resources

A teacher stands by a table helping four students who are working together on a board game and writing in notebooks in a classroom.

Course structure for K–5

Take a closer look at how the program is organized.

Two students sit at a classroom table working together with notebooks and a workbook, while other students work in the background.

Course structure for 6–8

Take a closer look at how the program is organized.

Two women sit at a desk; one types on a laptop while the other writes in a spiral-bound notebook. Both appear focused and are smiling.

Idaho Science Standards Alignment

See how we customized our instructional sequence to fully support the Idaho Scie…

A collage with Mars landscape art, three kids conducting a tabletop science experiment, an adult's hand holding a jar, and two people hiking in a bright field, illustrated style.

NGSS Earth Science Standards Map

A collage of four images: underwater animals, two students conducting a science experiment, hands building with plastic rods, and a colorful illustration of dancers.

NGSS Life Science Standards Map

A collage showing: a candle flame amid germs, hands measuring a ping pong ball with calipers and a ruler, hands with magnets and a ruler, and a stylized compass over a map of Earth.

NGSS Physical Science Standards Map

Two children sit at a table with laptops, facing each other and talking animatedly, surrounded by books and classroom supplies.

What’s so phenomenal about phenomena?

Learn actionable strategies that will help you implement 3-D teaching and learni…

Illustration of wind carrying particles from a coastal city up a steep, green mountain under a clear blue sky.

Unit phenomena for K–5

Take a closer look at the elementary unit phenomena featured in each grade level…

Illustration of a roller coaster car filled with people raising their arms as it rolls down a steep track against a blue sky with clouds.

Unit phenomena for 6–8

Take a closer look at the middle school unit phenomena featured in each grade le…

A slide with the title “What do you know about aquariums?” next to an underwater photo showing fish and a person swimming. Other science lesson slides are visible above and below.

Classroom Slides for K–5

Classrooms Slides for elementary are now available! These customizable PowerPoin…

A computer screen displays an educational simulation about Earth's energy system, with diagrams and explanatory text about energy entering and exiting the system.

Classroom Slides for 6–8

Classrooms Slides for middle school are coming soon! These customizable PowerPoi…

A computer screen displays an ecosystem selection menu with options for 3 or 6 animal populations, featuring illustrated creatures and labeled icons for each species.

Sims for 4–8

Take a closer look at the digital Simulations included at each grade level.

Two children sit on the floor in a classroom, with one boy reading aloud from a book titled "Gary’s Sand Journal" while a girl listens attentively beside him.

Literacy-rich instruction in K–5

Scientists do not just get messy. They read and write with purpose too. Explore…

A selection of colorful science-themed books and handbooks with illustrated and photographic covers, arranged diagonally on a green background.

Student Books in K–5

Read a summary of each of our award-winning K–5 student books.

A student reads about rock formations from a spiral-bound book while sitting at a table with a laptop; other students work together in the background.

Active reading in 6–8

Learn how we support students in learning how to interact with scientific texts….

Two children wearing safety goggles use plastic spoons to stir substances in clear cups, conducting a science experiment at a table.

Investigations for K–5

Explore the types of investigations that take place in elementary classrooms.

A person wearing gloves looks into a microscope, with laboratory supplies and bottles on a tray beside them, against a plain blue background.

Investigations for 6–8

Explore the types of investigations that take place in middle school classrooms….

Assorted materials including cardboard sheets, tennis balls, rubber bands, hooks, washers, ping pong balls, sticks, tape, string, and screws arranged on a white surface.

Materials Kits for K–5

See what components come in our materials kits!

Assorted science kit components including motors, batteries, propellers, solar panel, rubber bands, wires, plastic containers, metal fasteners, and spools of thread arranged on a white background.

Materials Kits for 6–8

See what components come in our materials kits!

A teacher stands at the front of a classroom, speaking to students seated at desks, with several students raising their hands to participate.

Approaches to assessment in K–5

Learn about our elementary embedded assessments.

Two students sit at desks, writing in notebooks while using laptops in a classroom setting.

Approaches to assessment in 6–8

Learn about our middle school embedded assessments.

A closer look at grades 6–8

Amplify Science is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

In the 6–8 classroom, this looks like students:

  • Collecting evidence from a variety of sources.
  • Making sense of evidence in a variety of ways.
  • Formulating convincing scientific arguments.

Is your school implementing the domain model? Click here.

Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
A four-step process diagram: Spark intrigue, Explore evidence, Explain and elaborate, and Evaluate claims, connected by arrows, with an engagement statement below.

Program structure

Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

It’s this proven program structure and lesson design that enables Amplify Science to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the NGSS in fewer lessons than other programs.

Scope and sequence

Every year our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45-minutes, though teachers can expand or contract the timing to meet their needs.

A grid of educational icons, each representing a different science topic, such as earth and space science, life science, and physical science, with titles and lesson counts.

Unit types

Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

In grades 6–8, there are three types of units:

  • One unit is a launch unit.
  • Three units are core units.
  • Two units are engineering internships.
Launch units

Launch units are the first units taught in each year of Amplify Science. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

Core units

Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

Engineering Internship units

Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

Units at a glance

Abstract digital artwork featuring a yellow human figure, red shapes, and a blue-toned screen, with vibrant, multicolored patterns and textures in the background.
Microbiome

Domain: Life Science

Unit type: Launch

Student role: Microbiological researchers

Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.  

An abstract illustration of a person receiving an oral examination, with colorful geometric shapes and an eye chart in the background.
Metabolism

Domain: Life Science

Unit type: Core

Student role: Medical researchers

Phenomenon: Elisa, a young patient, feels tired all the time.  

Abstract orange background with geometric shapes, featuring icons of a vest, bar chart, leaf, beaker, fruit, medical stethoscope, and an envelope within a hexagonal frame.
Metabolism Engineering Internship

Domains: Life Science, Engineering Design

Unit type: Engineering internship

Student role: Food engineers

Phenomenon: Designing health bars with different molecular compositions can effectively meet the metabolic needs of patients or rescue workers.  

Six spiders with varying body colors (brown, yellow, blue, and red) and patterns are arranged on a dark, textured background, seemingly in a diagram or chart formation.
Traits and Reproduction

Domain: Life Science

Unit type: Core

Student role: Biomedical students

Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.  

Illustration of a person with closed eyes in a red winter coat and hat, surrounded by falling snow and orange circles on a dark background.
Thermal Energy

Domain: Physical Science

Unit type: Core

Student role: Thermal scientists

Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school. 

Abstract illustration of a sun with blue and orange rays over a colorful landscape featuring green hills and a vibrant sky.
Ocean, Atmosphere, and Climate

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Climatologists

Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.  

Illustration of clouds above a small town and farmland, with wind currents depicted swirling through the landscape under a blue sky.
Weather Patterns

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Forensic meteorologists

Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.  

A polar bear stands on a small floating ice sheet in the ocean, surrounded by melting ice, with a red sun in the sky.
Earth’s Changing Climate

Domains: Earth and Space Science, Life Science

Unit type: Core

Student role: Climatologists

Phenomenon: The ice on Earth’s surface is melting.  

A purple hexagonal graphic with icons including a building, wrench, screwdriver, sun, molecules, paint bucket, and tiles on a geometric patterned background.
Earth’s Changing Climate Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Civil engineers

Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.  

A robotic rover sits on a hill in a rocky, reddish landscape, with visible tracks in the dust leading to its current position under a hazy sky.
Geology on Mars

Domain: Earth and Space Science

Unit type: Launch

Student role: Planetary geologists

Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable. 

Two green prehistoric reptiles with long snouts are near the shore; one is on land while the other swims in blue water, with plants, rocks, and an island in the background.
Plate Motion

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.  

A purple geometric background featuring a hexagonal badge with a telescope, mountain, audio wave, and star symbols inside.
Plate Motion Engineering Internship

Domains: Earth and Space Science, Engineering Design

Unit type: Engineering internship

Student role: Mechanical engineering interns

Phenomenon: Patterns in earthquake data can be used to design an effective tsunami warning system.  

Illustration showing an ocean, forest, and mountains with a smoking volcano, plus a cross-section of underground tectonic plates.
Rock Transformations

Domain: Earth and Space Science

Unit type: Core

Student role: Geologists

Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.  

Four stages of an orange popsicle melting on a stick, from fully frozen on the left to completely melted on the right, against a plain background.
Phase Change

Domains: Physical Science, Earth and Space Science

Unit type: Core

Student role: Chemists

Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart

Green geometric background with an outlined hexagon containing icons: a parachute, ruler, letter "A," bandage, stacked blocks, and a folded corner paper.
Force and Motion Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Chemical engineering interns

Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature. Domains: Engineering Design, Physical Science

Abstract illustration showing red and blue circles on a split blue and light background, representing molecular movement across a membrane or barrier.
Chemical Reactions

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Forensic chemists

Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.  

An underwater scene with a large whale surrounded by turtles, jellyfish, and various fish swimming in different directions.
Populations and Resources

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The size of the moon jelly population in Glacier Sea has increased. 

Low-poly digital illustration of a fox hunting a rabbit in a forest with pine trees, mushrooms, mountains, and the sun in the background. Another rabbit sits near the trees.
Matter and Energy in Ecosystems

Domains: Life Science, Earth and Space Science, Physical Science

Unit type: Core

Student role: Ecologists

Phenomenon: The biodome ecosystem has collapsed.  

Two people climb over rocks filled with electronic devices; inset illustrations show a boot, a belt of batteries, and a radio.
Harnessing Human Energy

Domains: Physical Science, Earth and Space Science, Engineering Design

Unit type: Launch

Student role: Energy scientists

Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.  

A spacecraft approaches and docks with a modular space station featuring large blue solar panels, set against a black space background.
Force and Motion

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.

Green graphic with hexagonal emblem showing an infant, a thermometer, layered materials, a medical symbol, and a flame icon.
Force and Motion Engineering Internship

Domains: Engineering Design, Physical Science

Unit type: Engineering internship

Student role: Chemical engineering interns

Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents.

Illustration of a roller coaster car with passengers raising their arms as they descend a steep track against a blue sky with clouds.
Magnetic Fields

Domain: Physical Science

Unit type: Core

Student role: Physicists

Phenomenon: During a test launch, a spacecraft traveled much faster than expected.  

Illustration of the Earth with arrows representing radiation or energy entering the atmosphere from space, focused on the Asia-Pacific region.
Light Waves

Domains: Physical Science, Life Science, Earth and Space Science

Unit type: Core

Student role: Spectroscopists

Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.

A city skyline at night with illuminated windows, a large full moon, stars in the sky, and a bridge visible on the left side.
Earth, Moon, and Sun

Domains: Earth and Space Science, Physical Science

Unit type: Core

Student role: Astronomers

Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.  

Four polygonal dinosaurs walking in a row, three green and one yellow, each with a rock and purple spikes on their backs, set against a grassy background with a blue sky.
Natural Selection

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Biologists

Phenomenon: The newt population in Oregon State Park has become more poisonous over time.  

Red geometric background featuring a hexagonal emblem with icons of a world map, mosquito, DNA strand, bar chart, and interconnected blocks.
Natural Selection Engineering Internship

Domains: Engineering Design, Life Science

Unit type: Engineering internship

Student role: Clinical engineers

Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development while helping malaria patients.  

Two tortoises with long necks are by a river; one is browsing leaves from a bush while the other is walking near the water's edge.
Evolutionary History

Domains: Life Science, Earth and Space Science

Unit type: Core

Student role: Paleontologists

Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.    

Resources

Pilot support brochure for 6–8 (Integrated)

Unit phenomena for 6–8

Take a closer look at the unit phenomena featured in each grade level.

Classroom Slides for 6–8

Your new hands-free TG is coming soon! These PowerPoints for every lesson make t…

What’s so phenomenal about phenomena?

Learn actionable strategies that will help you implement 3-D teaching and learni…

Active reading in 6–8

Scientists read and write with purpose too.

Investigations for 6–8

Explore the types of investigations that take place in middle school classrooms….

A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

Sims for 4–8

Approaches to assessment in 6–8

Learn about our middle school embedded assessments.

Welcome to Amplify Science K–8 for Oklahoma!

Amplify Science is an engaging core curriculum designed for three-dimensional, phenomena-based learning and fully correlated to the Oklahoma Academic Standards for Science.

This site includes helpful resources and links to guide your review of the program. You may wish to start by reviewing the top reasons so many districts across the nation choose Amplify Science.

Two young boys sit at a yellow table in a classroom, working on an activity with wooden sticks, while an adult woman sits nearby observing.

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science as well as science content experts and the digital learning team at Amplify.

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

DO
Firsthand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

TALK
Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

READ
Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

WRITE
Following real-world practices, students write scientific arguments based on evidence they’ve collected, clearly presenting their reasoning about how a given piece of evidence connects to one of several claims.

VISUALIZE
By manipulating digital simulations and using modeling tools to craft visualizations of their thinking—just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

Year at a glance

Kindergarten

Grade 1

Grade 2

Grade 3

Grade 4

Grade 5

Grade 6

Grade 7

Grade 8

Scope and sequence for Oklahoma

This recommended scope and sequence for 6–8 outlines the suggested organization of the Amplify Science units to best match the Oklahoma middle school curriculum.

Oklahoma Academic Standards for Science coverage

Correlation to K–8 Oklahoma Academic Standards for Science

Amplify Science was designed from the ground up to meet the Next Generation Science Standards (NGSS), and the Oklahoma Academic Standards for Science (OASS) are closely aligned to the NGSS for K–8. The guidance below is meant to provide support for integrating additional activities that support full coverage of the OASS.

Organized by grade level, each section below will outline:

  • additional activities that support 100% alignment to the Oklahoma Academic Standards for Science.
  • the standard being addressed with the activities.
  • the recommended placement of the activities within a specific Amplify Science unit. 
  • PDFs of any accompanying materials that are necessary to implement the activities. 

Standard: 1.ESS3.1: Communicate solutions that will reduce the impact of humans on the land, water, air, and/or other living things in the local environment.

Recommended placement: Animal and Plant Defenses unit, Chapter 1

MaterialsThe Student Book Investigating Monarchs from the unit Needs of Plants and Animals

Investigating Monarchs emphasizes the needs of monarch caterpillars and butterflies and shows what happens when these animals are not able to meet their needs. The book first introduces the life cycle of monarchs, explaining that monarch caterpillars must eat milkweed to survive and change into butterflies. Their summer habitat must have milkweed. The butterflies then migrate a long distance, from the United States to a forest in the mountains of Mexico, where they take shelter in the trees. Their winter habitat must have trees. Scientists discovered that the monarch population in Mexico was greatly reduced because people were cutting down the trees. The forest was then protected, but the monarch population did not recover as expected. Scientists in the United States found evidence that this was because fields with milkweed are being replaced by farms and buildings. 

Instructions:

This book could be read with the class either before or after Chapter 1 of the Animal and Plant Defenses unit, which focuses on what plants and animals need to do to survive. Students could be asked to reflect on what the monarchs need to survive (including food and shelter), and how human activities impacted the monarchs’ ability to meet those needs. After reading the book, students could brainstorm ideas for how to reduce the impact of humans on the local environment.

Standard: MS-PS4-2: Develop and use a model to describe that waves are reflected, absorbed, or transmitted through various materials.

Recommended placementMetabolism unit, Lesson 3.3, addition to Activity 5 

Materials“What Eyes Can See” science article

As students investigate metabolism and the body systems, the article “What Eyes Can See” should be assigned to deepen their understanding of information processing and sense receptors and connect that understanding to the emerging idea of the interaction of waves with various materials. The article explores how the only thing we can really see is light. Light travels from a light source to the eye, passing through some materials and bouncing off others. Tiny organs inside the eye called rods and cones absorb energy from light, making vision possible. These interactions between light and materials determine our visible world. 

Instructions:

Download the PDF “What Eyes Can See” above and remind students of the Active Reading guidelines. Before students read the article, invite them to share prior experiences. For example, “Have you ever had an experience where something looked different in one kind of light than in another kind of light? Or where something seemed to appear or disappear when the light changed?”

Standard: MS-PS3-1: Construct and interpret graphical displays of data to describe the relationships of kinetic energy to the mass of an object and to the speed of an object.

Recommended placementHarnessing Human Energy unit, Lesson 1.4, after Activity 4 

MaterialsForce and Motion simulationactivity instructions and copymasters

In this activity, students use the Force and Motion simulation to investigate the relationship between kinetic energy, mass, and velocity. 

Instructions:

Download the PDF linked above for the Lesson Guide and copymasters needed for the activity. Note that this investigation is typically implemented during the Force and Motion unit. This means the Lesson Guide will contain some incongruous labeling (e.g., unit name), as well as instructions that are out of context and unnecessary for the purposes of addressing this standard at grade 7. We suggest skipping to step 4 of the Instructional Guide to avoid some of this. Your students will get additional exposure to this activity, and indeed the standard as a whole, when they get to the Force and Motion unit in grade 8.

Grade 8 additional activities

Standards:

  • MS-PS2-3: Ask questions about data to determine the factors that affect the strength of electric and magnetic forces.
  • MS-PS2-5: Conduct an investigation and evaluate the experimental design to provide evidence that fields exist between objects exerting forces on each other even though the objects are not in contact.

Recommended placementForce and Motion unit, after Lesson 1.5 

MaterialsFlextension PDF

This hands-on activity builds on and reinforces students’ understanding of forces that act at a distance, with a focus on electrostatic force. Students explore electrostatic forces, prompted by a set of challenges that they try to accomplish. Next, students generate scientific questions based on their observations. Electrostatic force is less predictable and consistent than magnetic force, and investigating it can be both challenging and intriguing. The purpose of this lesson is for students to gain firsthand experience with electrostatic force and to gain experience generating scientific questions based on observations. You might choose to include this Flextension if you would like your students to have more exposure to electrostatic force, and if you would like to challenge your students to explore and ask questions about a challenging type of force. 

Instructions:

Download the PDF linked above for a detailed Lesson Guide and the copymasters associated with the activity. Note that this activity is typically implemented as an add-on Flextension during the Magnetic Fields unit. This means that you will see some information that is out of context (e.g., placement information, unit title), but the activity itself also works for the purposes of the Force and Motion unit.

What’s included

Flexible resources that work seamlessly together

Science articles

The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Student Investigation Notebooks

Available for every unit, the Student Investigation Notebooks provide space for students to:

  • record data.
  • reflect on ideas from texts and investigations.
  • construct explanations and arguments.

Available with full-color article compilations for middle school units.

Digital student experience

Students access the digital simulations and modeling tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • conduct hands-on investigations.
  • engage in active reading and writing activities.
  • participate in discussions.
  • record observations.
  • craft end-of-unit scientific arguments.

Oklahoma Spotlight Video: Spotlight on Simulations

Teacher’s Guides

Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • Classroom Slides.
  • detailed lesson plans.
  • unit and chapter overview documentation.
  • differentiation strategies.
  • standards alignments.
  • in-context professional development.

Oklahoma Spotlight Video: Classroom Slides

Hands-on materials kits

Hands-on learning is at the heart of Amplify Science. Each unit kit contains:

  • consumable and non-consumable hands-on materials.
  • print classroom display materials.
  • premium print materials for student use, such as sorting cards and maps.

K–5 Materials Kit List

6–8 Materials Kit List

Additional resources to support your review

Digital navigation overview

To help familiarize yourself with navigating the digital Teacher’s Guides, watch our Navigation Walkthrough videos:

Grades K–5:

Grades 6–8:

Contact us

Contact your Oklahoma representative:

Dana Blumberg
Account Executive
dblumberg@amplify.com
(847) 528-1822

Kelley Simpson (Oklahoma City, Tulsa, Edmond, and Moore Public Schools only)

Account Executive

kesimpson@amplify.com

(806) 884-5112

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify. This partnership extends to 2032, allowing us to continuously improve our program and provide our customers with the most up-to-date enhancements, free of charge. Get a glimpse at our latest back-to-school updates here.

Instructional model

The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

Three blue panels describing educational activities: "hands-on science" with lab experiments, "discuss" with collaborative learning, and "read" with literacy in science articles.

Phenomena-based approach

In each Amplify Science unit, students take on the roles of scientists or engineers in order to investigate a real-world problem. Students work to define the problem and collect and make sense of evidence. Once the context is clear, students collect evidence from multiple sources and through a variety of modalities. At the end of the unit, students are presented with a brand new problem, giving them an opportunity to apply what they’ve learned over the course of the unit to a new context. This represents a shift from asking students to learn about science to supporting students in figuring out the science.

Flowchart of a learning unit divided into four chapters, showing stages of student engagement from introduction to application, with assessments indicated at various points.

Resources to support your review

Remote and hybrid learning support

A child sits at a desk using a laptop. Next to the desk is a bookshelf with books, a fishbowl, and a soccer ball.

See an example of our remote and hybrid learning support below:

This fall, Amplify launched a new remote learning solution called Amplify Science@Home. Intended to make extended remote and hybrid learning easier, Amplify Science @Home includes two useful options for continuing instruction: @Home Videos and @Home Units.
Amplify Science @Home Videos are recordings of real Amplify Science teachers teaching the lessons. For those teachers who are unable to meet synchronously with their students, the recorded lessons are a great way to keep their students on track and engaged with Amplify Science while at home. These videos will be produced for all K–5 units, and for the first four units of each 6–8 grade level. Their release will be rolling, beginning in August.

Amplify Science @Home Units are modified versions of Amplify Science units, strategically designed to highlight key activities from the program. The @Home Units take significantly less instructional time than the complete Amplify Science program and allow students to engage with science at home. @Home Units will be developed for all Amplify Science K–8 units. Each @Home unit includes:

  • Teacher overviews explaining how to use the materials, including suggestions for enhancing the @Home Units if synchronous learning or in-class time with students is available
  • Overviews to send home to families

Student materials will be available in two formats:

  • @Home Slides (PDF/PPT) + Student Sheets (PDF) for students with access to technology at home
  • Downloadable @Home Packets (PDF) for students without access to technology at home

Download the remote and hybrid learning guide

Benchmark Assessments

Amplify’s Benchmark Assessments are designed to help teachers measure student progress toward the three dimensions—Disciplinary Core Ideas (DCIs), Science and Engineering Practices (SEPs), and Crosscutting Concepts(CCCs)—and performance expectations (PEs) of the NGSS. The assessments provide important insight into how students are progressing toward mastery of different standards ahead of high-stakes, end-of-year assessments.

The Benchmark Assessments are built to be delivered after specific units in the recommended Amplify Science scope and sequence.* They are given three or four times per year, depending on the grade level. The benchmarks are intended to show progress at various points in time across a school year, and are therefore not summative in nature. Digital items and item clusters are also tagged to specific NGSS standards, allowing customization to align with other course sequences. The assessments are available via the following platforms:

Print
PDF files: For administering Benchmark Assessments on paper

Digital platforms

  • Illuminate
  • SchoolCity
  • Otus
  • QTI (“Question and Test Interoperability”) files
    Not sure whether QTI files are compatible with your assessment platform? Contact your school IT or assessment platform representative for more information.
    Please note that Amplify is able to provide access to the QTI files themselves, but is not able to support the integration process. Your assessment platform provider should be able to assist with QTI file integration.

Flexible implementation

One of the key features of Amplify Science is the flexibility that it offers. We give students authentic opportunities to experience the full breadth of what it means to be a scientist or engineer. Just as scientists gather evidence from many types of sources, so do students in our program. Like scientists, students gather evidence not just from physical models, but also from digital models, texts, videos, photographs, maps, data sets, and even their peers!
Simply put, real scientists don’t just get messy—they read, write, analyze, hypothesize, model, test, and communicate with purpose, too.

Science articles

The middle school science articles serve as sources for evidence collection and were authored by science and literacy experts at the Lawrence Hall of Science.

Illustration of the indirect effects of overfishing on northern benguela jelly populations displayed on a laptop screen.

Student Books
Beginning and young readers have unique developmental needs, and science instruction should support these students in reading more independently as they progress through sections of content, the school year, and each grade. One way Amplify Science meets these needs is by strategically deploying different modes of reading throughout each unit: Read-Aloud, Shared Reading, and Partner Reading.

A collage of various educational book covers related to science and math, featuring illustrated themes like sports, nature, and energy.

Student Investigation Notebooks

Available for every unit, the Student Investigation Notebooks provide space for students to:

  • record data.
  • reflect on ideas from texts and investigations.
  • construct explanations and arguments.

Available with full-color article compilations for middle school units.

Collection of educational books from 'amplify science' on topics including ocean atmosphere, matter and energy ecosystems, and insect interactions, displayed in various angles.

Digital student experience

Students access the digital simulations and Modeling Tools, as well as lesson activities and assessments, through the digital student experience. Students can interact with the digital student experience as they:

  • conduct hands-on investigations.
  • engage in Active Reading and writing activities.
  • participate in discussions.
  • record observations.
  • craft end-of-unit scientific arguments.

Dive into a quick example of our powerful simulations

A digital illustration showcasing a laptop and a tablet displaying complex data analysis software interfaces with graphs and heatmaps.

Hands-on materials kits

Hands-on learning is at the heart of Amplify Science and is integrated
into every unit. Students actively take on the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them.

Check out these 2-minute videos to see an Amplify Science hands-on investigation in action.

Each unit kit contains:

  • consumable and non-consumable hands-on materials.
  • print classroom display materials.
  • premium print materials for student use (sorting cards, maps, etc.).
A perforated rectangular board, three small containers with different powders, a black battery holder with red wires, and three colored alligator clips are arranged on a white background.

Teacher’s Guides

Available digitally and in print, the Teacher’s Guides contain all of the information teachers need to facilitate classroom instruction, including:

  • detailed lesson plans.
  • unit and chapter overview documentation.
  • differentiation strategies.
  • standards alignments.
  • in-context professional development.
A laptop displaying the Geology on Mars webpage sits beside a book titled "Geology on Mars," both featuring the same cover image of Mars and a spacecraft, perfect for enhancing three-dimensional learning in any science classroom.

Scope and Sequence

GRADE UNITS
Kindergarten
  • Needs of Plants and Animals
  • Pushes and Pulls
  • Sunlight and Water
Grade 1
  • Animal and Plant Defenses
  • Light and Sound
  • Spinning Earth
Grade 2
  • Plant and Animal Relationships
  • Properties of Materials
  • Changing Landforms
Grade 3
  • Balancing Forces
  • Inheritance and Traits
  • Environments and Survival
  • Weather and Climate
Grade 4
  • Energy Conversions
  • Vision and Light
  • Earth’s Features
  • Waves, Energy, and Information
Grade 5
  • Patterns of Earth and Sky
  • Modeling Matter
  • The Earth System
  • Ecosystem Restoration
GRADE UNITS
Grade 6: Earth Science
  • Launch: Geology on Mars
  • Plate Motion
  • Plate Motion: Engineering Internship
  • Rock Transformations
  • Earth, Moon, and Sun
  • Ocean, Atmosphere, and Climate
  • Weather Patterns
  • Earth’s Changing Climate
  • Earth’s Changing Climate: Engineering Internship
Grade 7: Life Science
  • Launch: Microbiome
  • Metabolism
  • Metabolism: Engineering Internship
  • Traits and Reproduction
  • Populations and Resources
  • Matter and Energy in Ecosystems
  • Natural Selection
  • Natural Selection: Engineering Internship
  • Evolutionary History
Grade 8: Physical Science 
  • Launch: Harnessing Human Energy
  • Force and Motion
  • Force and Motion: Engineering Internship
  • Magnetic Fields
  • Thermal Energy
  • Phase Change
  • Phase Change: Engineering Internship
  • Chemical Reactions
  • Light Waves

Minnesota Academic Standards in Science coverage

Amplify Science was designed from the ground up to meet the NGSS, a set of standards that closely align with the K–8 Minnesota Academic Standards in Science (MASS). Therefore, most grade levels’ respective set of Amplify Science units address the necessary MASS (see K–5 reverse alignment and/or correlations for K–5 and 6–8). However, for grades 2–4, teachers should also use the resources provided in the sections below to achieve full coverage of the appropriate standards before their students move on to the next grade level. Organized by grade level, each section outlines:

  • companion lesson materials that were written to support 100% alignment to the Minnesota Academic Standards in Science when used with the core Amplify Science units for the grade level
  • the standard being addressed with each companion lesson; and
  • the recommended placement of each companion lesson within a specific Amplify Science unit 

Companion lesson: “Shelter”

Standard: 1P.4.2.2.1 Communicate solutions that use materials to provide shelter, food, or warmth needs for communities including Minnesota American Indian tribes and communities.* (P: 8, CC: 2, CI: PS1, ETS2)

Recommended placement: Following Lesson 5.1 of Spinning Earth

Materials: Shelter Classroom Slides and Student Sheet

Companion lesson: “Describing Climates”

Standard: 2E.4.2.1.2 Obtain and use information from multiple sources, including electronic sources, to describe climates in different regions of the world.** (P: 8, CC: 1, CI: ESS2)

Recommended placement: Following Lesson 4.5 of Changing Landforms

Materials: Describing Climates Classroom Slides and Student Sheet

Note: Students will further investigate the content in this standard, and revisit the book used in this companion lesson, in 3rd grade (Weather and Climate unit)

Companion lesson 1: Light and Vision

Standard: 3P.3.1.1.1 Develop a model to describe that light reflecting from objects and entering the eye allows objects to be seen. (P: 2, CC: 2, CI: PS4)

Recommended placement: Following Lesson 4.5 of Environments and Survival

Materials: Light and Vision Part 1 Classroom Slides and Student Sheet; Light and Vision Part 2 Classroom Slides and Student Sheet 

Note: Students will further investigate the content in this standard, and revisit the book used in this companion lesson, in 4th grade (Vision and Light unit)

Companion lesson 2: Studying Stars

Standard: 3E.4.2.2.1 Gather information and communicate how Minnesota American Indian Tribes and communities and other cultures use patterns in stars to make predictions and plans. (P 8, CC: 1, CI: ESS1) 

Recommended placement: Following Lesson 4.4 of Weather and Climate

Materials: Studying Stars Classroom Slides and Student Sheet

Note: Students will further investigate the content in this standard, and revisit the book used in this companion lesson, in 5th grade (Patterns of Earth and Sky unit)

Companion lesson 1: Salt Water and Freshwater

Standard: 4E.2.2.1.1 Interpret charts, maps and/or graphs of the amounts of salt water and fresh water in various reservoirs to provide evidence about the distribution of water on Earth.** (P: 5, CC: 4, CI: ESS2) 

Recommended placement: Following Lesson 2.6 of Earth’s’ Features

Materials: Salt Water and Freshwater Classroom Slides and Student Sheet

Note: Students will further investigate the content in this standard, and revisit the book used in this companion lesson, in 5th grade (The Earth System unit)

Companion lesson 2: How Raindrops Form

Standard: 4E.1.1.1.2 Ask questions about how water moves through the Earth system and identify the type of question. (P: 1, CC: 5, CI: ESS2) 

Recommended placement: Following Lesson 4.5 of Earth’s’ Features

Materials: How Raindrops Form Classroom Slides and Student Sheet

Note: Students will further investigate the content in this standard, and revisit the book used in this companion lesson, in 5th grade (The Earth System unit)

Explore the digital Teacher’s Guide

To familiarize yourself with navigation of the digital Teacher’s Guide, watch our navigational guide videos:

Grades K–5:

Grades 6–8:

Looking for help?

Powerful (and free!) pedagogical support

Amplify provides a unique kind of support you won’t find from other publishers. We’ve developed an educational support team of former teachers and administrators who provide pedagogical support for every Amplify curriculum, assessment, and intervention program. This service is completely free for all educators who are using our programs and includes:

  • Guidance for developing lesson plans and intervention plans.
  • Information on where to locate standards and other planning materials.
  • Recommendations and tips for day-to-day teaching with Amplify programs.
  • Support with administering and interpreting assessment data and more.

Timely technical and program support

Our technical and program support is included and available Monday through Friday, from 7 a.m. to 7 p.m. ET, through a variety of channels, including a live chat program that enables teachers to get immediate help in the middle of the school day.

Ready to dive in?

Contact your Minnesota representative:
Kristi Stengel
Account Executive
kstengel@amplify.com
(612) 306-3941

Tammy Sigwarth
Account Executive
tsigwarth@amplify.com
(563) 663-0056

A powerful partnership

Amplify Science was developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify.

The word "Amplify" is written in orange bold letters with a period at the end against a white background.
The logo for The Lawrence Hall of Science, University of California, Berkeley, features blue text on a light background and is recognized by educators using Amplify Science for middle school science programs.

Back to school 2020–21 updates

Back to school 2020 is coming! Click here for more information on all of the improvements and new features we’re adding to Amplify Science for the new school year.

Program introduction

Onboarding: what to expect

Welcome to Amplify Science! To help you know what’s coming next, we created the following outline of the steps of the onboarding process. You can use it as a reference.

Administrators receive launch email

  • Share the information with teachers
  • Submit the shipping survey sent to your email

Log In

  • Go to learning.amplify.com
  • Click on Log in with Clever or Google 
  • Enter your FCPS credentials
  • Demo Account for full access to Amplify Curriculum without access to personalized class rosters:
    • Go to learning.amplify.com
    • Click on login with Amplify
    • Username: t.Fayette2020@tryamplify.net
    • Password:  AmplifyNumber1

Ensure you have received all materials and components

  • Teachers have access to a series of “Unboxing your materials kit” videos. If you’re interested in watching those, click here.

Check out the professional learning opportunities and/or access the Getting Started Resources below.

If you need assistance, please see the help resources or reach out to your Educational Partnerships Manager or PD manager at caffleck@amplify.com, pworks@amplify.com with any questions.

K–5 resources

To ensure your first day using Amplify Science in the classroom is as seamless and smooth as possible, we recommend reviewing the following checklist before the first day of school.

A graphic with the text "Pre-launch checklist for teachers" and an orange "Download PDF" button below. An icon of a checklist with a down arrow is on the left.

What’s coming to my school?

Each unit of Amplify Science comes with a hands-on materials kit. Each hands-on materials kit arrives in one to three boxes and contains:

  • Consumable materials for two uses of 25 or 36 students (depending on school purchase)
  • Non-consumable materials
  • Classroom wall materials
  • Premium print materials (card sorts, vocabulary rings, etc.).
  • 18 copies of each Student Book (5 titles each unit, K–1 will receive 5 big books per unit)
  • A blackline master of the Student Investigation Notebook

You can find complete materials lists for each unit in the following PDF. This information is also available in the digital Teacher’s Guide within the program.

Button for downloading a PDF of a K-5 materials list. An icon of a document with a downward arrow is on the left.

Onboarding videos

Our team has created a series of short videos to help get you started with Amplify Science:

What’s online?

Planning strategies

How to log in and navigate

NGSS introduction

Planning guides

As you prepare to plan for a unit, download our planning guides to help walk you through the most important resources to locate in either the print or digital Teacher’s Guide to help you plan:

    Additional resources

    If you’re interested in learning more about each unit’s anchor phenomena, the Student Books in each unit, and more program features, download the resources below:

      Overview Video

      The Lawrence Hall of Science

      Developed by the science education experts at UC Berkeley’s Lawrence Hall of Science and the digital learning team at Amplify, our program features:

      • phenomena-based approach where students construct a complex understanding of each unit’s anchor phenomenon.
      • A blend of cohesive storylines, hands-on investigations, rich discussions, literacy-rich activities, and digital tools.
      • Carefully crafted units, chapters, lessons, and activities designed to deliver true 3-dimensional learning.
      • An instructional design that supports all learners in accessing all standards.
      The logo for The Lawrence Hall of Science, University of California, Berkeley, features blue text on a light background and is recognized by educators using Amplify Science for middle school science programs.

      Instructional model

      The Amplify Science program is rooted in the proven, research-based pedagogy of Do, Talk, Read, Write, Visualize. Here’s how each element works:

      DO

      First-hand investigations are an important part of any science classroom, and Amplify Science has students getting hands-on in every unit—from building models of protein molecules to experimenting with electrical systems.

      TALK

      Student-to-student discourse and full-class discussions are an integral part of the program. Students are provided with numerous opportunities to engage in meaningful oral scientific argumentation, all while fostering a collaborative classroom environment.

      READ

      Students read scientific articles, focusing their reading activities on searching for evidence related to their investigation and, importantly, on asking and recording questions as they read through fascinating texts on 21st-century topics.

      WRITE

      Following real-world practices, students write scientific arguments based on evidence they’ve collected, making clear their reasoning about how a given piece of evidence connects to one of several claims.

      VISUALIZE

      By manipulating digital simulations and using modeling tools to craft visualizations of their thinking— just as real scientists and engineers do—students take their learning far beyond the confines of what they can physically see in the classroom in an exciting and authentic way.

      Program structure

      Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

      It’s this proven program structure and lesson design that enables Amplify Science to address 100% of the NGSS, and support students in mastering the standards.

      Graphic showing a research process with four steps: spark intrigue with a real-world problem, explore evidence, explain and elaborate, and evaluate claims, connected in a cycle with arrows.

      Unit types

      While every unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, each unit also serves a unique instructional purpose.

      In grades 6–8:

      • One unit is a launch unit.
      • Three units are core units.
      • Two units are engineering internships.

      Launch units are the first units taught in each year of Amplify Science. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

      Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

      Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

      Unit sequence

      Our lessons follow a structure that is grounded in regular routines while still being flexible enough to allow for a variety of learning experiences.

      In fact, our multi-modal instruction offers more opportunities for students to construct meaning, and practice and apply concepts than any other program. What’s more, our modular design means our units can be flexibly arranged to support your instructional goals.

      Three columns listing education curriculum topics for grades 6, 7, and 8, focusing on science themes such as microbiomes, mars geology, and harnessing human energy.

      Program components

      Available digitally and in print, our unit-specific reference guides are chock full of helpful resources, including scientific background knowledge, planning information and resources, color-coded 3-D Statements, detailed lesson plans, tips for delivering instruction, and differentiation strategies.

      Amplify Science TG

      Hands-on learning is an essential part of Amplify Science, and is integrated into every unit. Students actively participate in science, playing the roles of scientists and engineers as they gather evidence, think critically, solve problems, and develop and defend claims about the world around them. Every unit includes hands-on investigations that are critical to achieving the unit’s learning goals.

      A young person wearing gloves looks through a microscope at a table with laboratory supplies, including bottles, slides, and a tray, against a plain blue background.

      More hands-on with Flextensions:
      Hands-on Flextensions are additional, optional investigations that are included at logical points in the learning progression and give students an opportunity to dig deeper if time permits. These activities offer teachers flexibility to choose to dedicate more time to hands-on learning. Materials referenced in Hands-on Flextension activities will either be included in the unit kit or are easily sourced. Supporting resources such as student worksheets will be included as downloadable PDF files.

      Our kits include enough materials to support 200 student uses. In other words, teachers can easily support all five periods and small groups of 4-5 students each. Plus, our unit-specific kits mean teachers just grab the tub they need and then put it all back with ease.

      Amplify Science California supports 3-D learning with more materials than any other program.

      Our digital Simulations and Practice Tools are powerful resources for exploration, data collection, and student collaboration. They allow students the ability to explore scientific concepts that might otherwise be invisible or impossible to see with the naked eye.

      Available for every unit, our Student Investigation Notebooks contain instructions for activities and space for students to record data and observations, reflect on ideas from texts and investigations, and construct explanations and arguments.

      In grades 6–8, one copy of the Student Investigation Notebook is included in each unit’s materials kit for use as a blackline master. Each notebook is also available as a downloadable PDF on the Unit Guide page of the digital Teacher’s Guide.

      Two booklets titled "El clima cambiante de la Tierra: la desaparición del hielo" and "Earth’s Changing Climate: Vanishing Ice" with landscape illustrations on the covers.

      These customizable PowerPoints are available for every lesson of the program and make delivering instruction a snap with visual prompts, colorful activity instructions, investigation set-up videos and animations, and suggested teacher talk in the notes section of each slide.

      A laptop displays a PowerPoint presentation in presenter view, with slides about observing objects in plastic containers and related sensory instructions.

      Explore your print samples

      With your Amplify Science print samples, you’ll find unit-specific Teacher’s References Guides and Student Investigation Notebooks for each grade level.

      A note about the Teacher’s Reference Guides:

      It’s important that your committee sees the full breadth and depth of our instruction. For that reason, we provided a copy of each of our unit-specific Teacher Reference Guides.

      Rest assured that teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free TG!

      A laptop screen shows an energy simulation, with surrounding text and diagrams explaining the Earth's system and energy flow.
      • Teacher Reference Guide: Unlike a typical TG that requires a series of supplemental books to support it, our encyclopedic reference guide is chock-full of everything a teacher needs to fully implement our program and the NGSS.
      • Ready-to-Teach Lesson Slides: For daily instruction, teachers need their hands free. That’s why we created ready-to-teach lesson slides for every single lesson. What’s more, they are editable and include suggested teacher talk and point-of-use differentiation and other instructional tips. Click to learn more.

      A note about the Materials Kits:

      Hands-on learning is at the heart of Amplify Science, and is integrated into every unit. In order to make hands-on learning more manageable for busy teachers, Amplify Science materials are organized into unit-specific kits.

      Stacked storage bins with labels, arranged neatly; caption notes they are a sample and may not reflect actual quantities or sizes.

      Our unit-specific kits:

      • Include more materials — We give teachers enough materials to support 200 student uses.
      • Are more manageable — Unlike other programs that require large groups of students to share limited sets of materials, our kits include enough to support small groups of 4–5 students.
      • Include supportive videos — Each hands-on activity provides clear instructions for the teacher, with more complex activities supported by video demonstrations and illustrations.

      What comes in each grade level kit? Click the links below to see the grade-specific lists of all materials included in each kit.

      Access your digital samples

      Explore as a teacher

      Follow these instructions to explore the Amplify Science digital platform as a teacher.

      • Click the Access Amplify Science Platform button below and bookmark it.
      • Select Log in with Amplify.
      • Enter the username: t1.jeffersoncounty@demo.tryamplify.net
      • Enter the password: Amplify1-jeffersoncounty
      • Click the Science icon.
      • Click on the Program Menu in the top center of the screen and select any grade.
      • Select any unit.
      Access Amplify Science Platform

      To help familiarize yourself with navigating the digital platform,watch the below navigational video.

      Explore as a student

      Follow these instructions to explore the Amplify Science digital platform as a student.

      • Click the Access Amplify Science Platform button below and bookmark it.
      • Select Log in with Amplify.
      • Enter the username: s1.jeffersoncounty@demo.tryamplify.net
      • Enter the password: Amplify1-jeffersoncounty
      • Click the Science icon.
      • Click on the Grade Menu in the top center of the screen and select any grade.
      • Select any unit.
      Access Amplify Science Platform

      Resources to support your review

      Welcome, K–5 Atlanta Public Schools!

      To view this protected page, enter the password below:



      S3-04: Using AI and ChatGPT in the science classroom

      A graphic with the text "Science Connections" and "Amplify" features colorful circles and curved lines on a dark gray background.

      In the latest episode of the Science Connections podcast, we explore AI in education and its impact on students. Listen as I sit down with teachers Donnie Piercey and Jennifer Roberts to discuss ChatGPT and how we can use it to build science and literacy skills in K–12 classrooms while preparing students for the real world.

      And don’t forget to grab your Science Connections study guide to track your learning and find additional resources!

      We hope you enjoy this episode and explore more from Science Connections by visiting our main page!

      DOWNLOAD TRANSCRIPT

      Jennifer Roberts (00:00:00):

      If a kid graduates from school without knowing that AI exists, they’re not gonna be prepared for what they face out in the world.

      Eric Cross (00:00:07):

      Welcome to Science Connections. I’m your host, Eric Cross.

      Eric Cross (00:00:12):

      This season of the podcast, we’re making the case for everyone’s favorite underdog, science. Recently we’ve been highlighting the magic that can come from integrating science and literacy. So if you haven’t checked out those recent episodes, definitely go back in your feed after you’re done with this one. This time around, we’re going to deep dive into what artificial intelligence means for literacy instruction, and how science can be a force for good, in responsibly exposing students to AI. To help me out, I’m joined by two extremely accomplished educators. Jen Roberts, a veteran high-school English teacher from San Diego, who among many things runs the website LitAndTech.com. And I’m also joined by fifth-grade teacher Donnie Piercey. In addition to being Kentucky’s 2021 Teacher of the Year, Donnie also has an upcoming book about bringing AI into the classroom. Whether you’ve never heard of ChatGPT or whether you’re already using it every day, I think you’ll find this a valuable discussion about the intersection of science, English, and technology. Here’s Jen and Donnie.

      Eric Cross (00:01:17):

      So first off, welcome to the show. It’s good to see you all. What I wanna do is kind of start off by introducing both of you. And so we’ll just go K–12. So <laugh>, Donnie.

      Jennifer Roberts (00:01:30):

      Donnie goes first.

      Eric Cross (00:01:31):

      Donnie’s gonna go first. Donnie out in Kentucky. Just a little background. What do you teach; how long you’ve been in the classroom; and what are you having fun with right now?

      Donnie Piercey (00:01:38):

      Yeah, so my name is Donnie Piercey. I’m a fifth-grade teacher from Kentucky. Live and teach right here in Lexington, Kentucky, right in the center of the state. I’m the 2021 Kentucky Teacher of the Year. But I’ve been teaching elementary school for the past … I think this is year 16 or 17. It’s long enough where I’ve lost count, and I can’t even count on fingers anymore. My friends like to joke that I’ve taught long enough where now I can count down. You know, it’s like, “All right, only so many more years left.” But yeah, teach all subjects. Science definitely is one of the subjects that I don’t just try to squeeze into my day, but make sure that … it’s not even a devoted subject, but one that I definitely try to — don’t just have that set time, but also try to do some cross-curricular stuff with it. So definitely the rise of AI in these past few months, which feels like years by this point, has definitely played quite the role, in not just changing the way that I’ve been teaching science, but really all my subjects. So, excited to chat with y’all about it.

      Eric Cross (00:02:47):

      Nice. I’m excited that you’re here. And Jen?

      Jennifer Roberts (00:02:51):

      Hi, I’m Jen Roberts. I teach ninth-grade English at Point Loma High School, and that’s where I usually stop when I introduce myself. But for your sake—

      Eric Cross (00:03:00):

      I will keep introducing you if you stop there. <laugh>

      Jennifer Roberts (00:03:04):

      I am nationally board-certified in English Language Arts for early adolescence. I am the co-author of a book called Power Up: Making the Shift to 1:1 Teaching and Learning, from Stenhouse, with my fabulous co-author Diana Neebe. Shout out to Diana. I blog at LitAndTech.com about teaching and technology and literacy and the intersection of those things. And I’m looking forward to talking about how AI is showing up in my classroom and the fun things I’m doing with it.

      Donnie Piercey (00:03:31):

      And one of us is actually secretly a robot, and you have to guess which one.

      Jennifer Roberts (00:03:35):

      Have to guess which one. Yes. <laugh>

      Eric Cross (00:03:37):

      That would be super-meta. And you were the CUE — Computer-Using Educator — outstanding teacher or educator? Whatever. Either one. Of the year.

      Jennifer Roberts (00:03:45):

      I was the CUE ’22 Outstanding Educator. Yes. And I’ve won a few other things as well.

      Eric Cross (00:03:53):

      The gaming backpack.

      Jennifer Roberts (00:03:54):

      I’ve won a gaming backpack recently! Yes. I once won an iPad in a Twitter chat.

      Eric Cross (00:03:58):

      What?

      Donnie Piercey (00:03:58):

      What’s a gaming backpack? Hold on. We need to talk about that.

      Jennifer Roberts (00:04:01):

      We will talk about that. <laugh> And then, I was once a finalist for county Teacher of the Year. That’s as close as I got to Donnie. Donnie was the Kentucky Teacher of the Year. He got to go to the White House and stuff. That was exciting.

      Donnie Piercey (00:04:13):

      <laugh> I mean, to be fair, there’s only three million people in Kentucky, and about what, 50 million people that live in California? <Laugh> So odds are definitely stacked in my favor, I think.

      Jennifer Roberts (00:04:23):

      So you’re saying we’re even there? Is that, is that what you’re going for?

      Donnie Piercey (00:04:25):

      Yeah, evens out. Evens out.

      Eric Cross (00:04:27):

      So I’ve been looking forward to talking to you both for a while now, and talking about artificial intelligence. It’s like the big thing. And both of you, at different ends of the spectrum and in my life, have contributed to this. Donnie, you’ve been sharing so much great information online about how you’re using AI in elementary. Jen, you are the reason I got into education technology years ago, right when I was becoming a teacher. And so being able to talk with you both about it excites me a lot. So first off, for the listeners who may not have any experience with it — and there’s still a lot of people out there who have not been exposed to it, haven’t got their feet wet with it yet — I’m hoping we could start off maybe with an explanation of … we could do AI, ChatGPT, I know that’s the big one. But simply explaining what it is, just for the new person. And whoever wants to start off can tell us about it. Or maybe we’ll start … we’ll, let’s actually, let’s do this: Let’s continue going like K–12? So Donnie, maybe you could … what’s your pitch to the new person of, “Hey, this is what it is”?

      Donnie Piercey (00:05:31):

      All right. So, AI, artificial intelligence, probably the way that most people are exposed to it, at least since November when it launched, is through ChatGPT. Where if you Google it, you know it’s made by a company called OpenAI. The best way to describe what it is … when you go there for the first time, make an account, it’s free. You have like a little search window, looks like a Google search bar. And instead of searching for information, you can ask it to create stuff for you. So for example, like on Google search, you might type in a question like, “Who was the 19th president of the United States?” Where on ChatGPT, instead of just searching for information, it creates stuff for you. So you could say, you could ask it to, “Hey, write a poem about the 19th president of the United States.” Or, “Write a short little essay comparing, I don’t know, Frederick Douglass to Martin Luther King Jr.” And it would do that for you. You know, that’s most people’s first exposure to AI, at least in these past few months. Instead of … you know, it’s artificial intelligence, but it’s not just chatbots. There’s lots of other AI that exist out there.

      Jennifer Roberts (00:06:47):

      And I think that’s the thing: that people don’t realize how much AI is already in their lives.

      Donnie Piercey (00:06:51):

      For sure. Yeah.

      Jennifer Roberts (00:06:52):

      You know, they just haven’t seen … the term that I see being used a lot now is “generative AI.” AI that can produce something. It can produce writing, it can produce art, it can produce a script, it can produce a character. But the AI that has been helping you pick what to watch next on Netflix and the AI that’s helping Google help you get where you wanna go on Google Maps faster, those are forms of artificial intelligence as well.

      Donnie Piercey (00:07:21):

      Yeah. I mean, even those, when you get that that message in Gmail, and instead of having to type out that response that says, “Yeah, that sounds great,” you can just click the little button that says, “Yeah, that sounds great.” I mean, that’s been in Gmail for years, but that’s artificial intelligence too.

      Eric Cross (00:07:39):

      Absolutely. So why is it important, do you think, for educators to, to be familiar with it? Like, why are we all so excited about it?

      Jennifer Roberts (00:07:47):

      So, educators need to know what kids are into, and kids are obviously into ChatGPT. And anyone who’s an educator right now has probably already had something cross their desk — or more likely their computer screen — that was written by AI and passed off as a student’s own work. And that is, of course, the great fear among teachers everywhere, that this is what kids are just gonna do these days and they won’t be able to catch it and children won’t be doing their own work and this and this. But I think the big reason teachers need to know what’s going on is because teachers need to be futurists. Our clientele will live in the future. We teach kids, kids will become adults, adults will live in the world. And so if we’re not thinking about and trying to predict on some level what’s gonna happen 5, 10, 15 years from now … we might be wrong, but what if we’re right?

      Jennifer Roberts (00:08:38):

      And if we’re not at least trying to think about what is their future world gonna look like, then we’re not serving our students well. I did a whole night talk on that. So I think ChatGPT is part of that. I teach seniors. I had this moment of realization I felt a few months ago. I’m like, “This is gonna be the world they graduate into. They need to know what this is before they leave me.” If I don’t teach them how to use this well, and not the way they’re using it — which is to copy and paste the teacher’s assignment and drop it into ChatGPT and take whatever it spits out and turning that in without even looking at it — if I don’t teach ’em how to use it critically, if I don’t teach them how to write effective prompts, if I don’t teach them how to use the AI as a tool, as a collaborator, then they’re gonna graduate into a world where they lose out to people who do know how to do that. And I think the advantage goes to kids who have access and knowledge of what’s in front of them and what’s available, and can use all of the tools at their disposal. Because when you’re writing in school and you write with a collaborator, that could be considered cheating. But when you do that out in the adult world, that’s considered doing a good job. <Laugh> Being a team player. <Laugh> You know, adults don’t work alone for the most part. And adults are expected to churn out beautiful, perfect content no matter how they got there. So if I’m not teaching my kids how to use this, they’re not being ready. They’re not gonna be ready to be the adults that I want them to be.

      Donnie Piercey (00:10:07):

      A hundred percent agree. And I also believe … as you know, I teach elementary school. I also don’t think anybody is saying that on the first day of kindergarten, you hand a kid a Chromebook and load up an AI chatbot or ChatGPT and say, Hey, this thing’s gonna do all your work for you for the next 12 years; just coast through life. You don’t have to think creatively. You don’t have to learn how to develop a paragraph or learn how to write a speech or develop an idea. Like, I don’t think anybody’s saying that, because as an elementary school teacher, there’s many days when I’m like, “Y’all, we’re just putting the Chromebooks away today and we’re just gonna go old-school. We’re just gonna maybe just jot down five quick ideas and stand up and present those ideas to the class.”

      Donnie Piercey (00:10:54):

      Because while AI definitely will, like you were saying, Jen, play a significant role in the lives of our students who are, not just graduating, but the 10- and 11-year-olds in my classroom this year. A significant role in their lives. It’s also really important to recognize that we’re not saying that this means that “Hey, kids don’t have to work anymore.” They still have to put forth that effort. There’s still — one of the ways that you become a good writer is by trial and error. And sometimes that trial and error comes through talking to a teacher or talking like you were saying to a peer or collaborating with a peer and saying to them, “Well, this sentence here, this paragraph here, really doesn’t make sense.” And I do believe one of the ways — especially as AI starts to become more fine-tuned and starts to be embedded more and more in tools like Google Docs and Microsoft Word — is it’s almost going to be a tutor to students.

      Donnie Piercey (00:11:56):

      Mm-hmm. <affirmative> Where I could very easily see in a few years, or maybe a few months, who knows what Google or any of these other big companies has rolling out, where a student could highlight a paragraph that they wrote simply, and then say, “Hey, proofread this for me,” or “Check for coherence.” Or even just ask a simple question: “Does this paragraph make sense?” Because you can already do that. You can copy a paragraph over into a chatbot and say, “Hey, does this make sense?” You know, “Rate my idea from one to 10,” and it’ll do that for ’em.

      Jennifer Roberts (00:12:26):

      We did that last week <laugh>.

      Donnie Piercey (00:12:28):

      Yeah. Right. I mean, that’s the thing. That technology exists now. It’s just not totally embedded yet. But based on what I’ve read and what I’ve seen, that’s gonna happen sooner rather than later. And it’s really, really important that we teach our students that, “No, you’re not just gonna use this, this tool to cheat, but you can use this tool to help you become a more creative student.”

      Jennifer Roberts (00:12:50):

      This is the use case in my classroom. Can I talk about that? You ready for that?

      Eric Cross (00:12:53):

      Please.

      Jennifer Roberts (00:12:54):

      OK.

      Eric Cross (00:12:54):

      Please.

      Jennifer Roberts (00:12:55):

      So my ninth graders are writing a comparative analysis essay, where I took them to the student art gallery and I made them pick two pieces of completely unknown student art and take notes on it, so they could go back and write this essay. And as soon as we got back to class, I said, can ChatGPT write this for you? And they all kind of froze ’cause I didn’t tell them what ChatGPT was. And they weren’t sure if they were allowed to know or not. And finally one of them kind of bravely raised his hand and said, “No.” And I said, “Why not?” And he said, “Well, the AI hasn’t seen the art. How can it write an essay about art when the art is completely original that we just went and looked at?” I said, “It’s almost like I planned it that way, isn’t it?” And they laughed nervously. And then I said, “Does that mean it can’t help us with this assignment?” And they said, “Well, no — of course it can’t help us, because it has not seen the art.” And I said, “Well. …” And I open ChatGPT, and I typed in what they were trying to do: “I need to write a comparative analysis essay comparing two pieces of student art on these reasons. And I need to choose which one did it better, basically. Can you help me with an outline?” and ChatGPT produced a lovely outline. And I looked at that with my students and we looked at it together and I said, “This is what it gave us. Would this be helpful to you?” And they’re like, “Yeah, that would be helpful to us.” So we — to be clear here, I was the only one using ChatGPT in the room. They were not actually using it. We were using it together. I copied and pasted the outline that it gave us and put it in their learning management system where they could access it so they could use the outline that the robot provided, and then they could use that to make their own writing better. So then I let them write for a little while, and, after they’d written for a little while, I said, “Does anybody wanna let me share your first paragraph with ChatGPT and see what it thinks of how you’re doing?” And a brave student raised his hand and we took his paragraph and we put it in ChatGPT, and it spit back advice. We said, “This is what I have so far for my first paragraph. Do you have any advice for me?” And we gave it the writing, and the first piece of advice it gave back was very generic, you know, “Add a hook,” you know, like kind of thing. But after that, it started to get more specific about things he was actually doing in his writing. And it started to give him some feedback. And we looked at that together as a class. And I said, “Does any of that feedback help you?” And he said, “Oh yeah, absolutely. I’m gonna go add some revisions to my paragraph.” And other students did too. They looked at the feedback he got and used that to improve their writing. And so everybody went and revised. And I said, “Look, if you take what the robot gives you and you copy and paste it, and you turn it in as your own work, it’s gonna get flagged for plagiarism. And that’s not gonna go well. But if it gives you writing advice the same way I would give you writing advice, and you decide that advice is good, and you take that advice and you incorporate it into your own writing yourself, then the robot’s making you better, but you’re still the one doing your own writing.” And the writing they turned in from that assignment was, was better. It wasn’t written by ChatGPT; it was still about the student art that they found in the gallery. But I showed them a path. Like, it can help you with an outline, it can help you with feedback. Right? These are fair ways to use it that’s gonna make you better. And they really liked that. They really liked — no one had shown them that before. The idea that you don’t just take the teacher’s prompt and give it to it … like, these are new uses to students and worked well.

      Eric Cross (00:16:17):

      So right now, you both just laid out these ways that you’re using it. And I do this with people that I’m trying to introduce to ChatGPT or AI. ‘Cause I get excited. Anyone could write a 500-word persuasive essay on the use of color in The Great Gatsby or The Outsiders, and they can get something back within seconds. But for a lot of educators, it might feel like the sky is falling.

      Donnie Piercey (00:16:43):

      Oh, understandably! Understandably. I mean, that totally makes sense.

      Eric Cross (00:16:49):

      What would you say to them? Donnie, go ahead.

      Donnie Piercey (00:16:51):

      Yeah. Well, I feel like every teacher kind of goes through the same experience when they see like a generative chatbot. I mean, all these major companies are gonna start incorporating AI, the generative AI piece. And a lot of times, when they see it for the first time, two things. First they’ll say “Oh, but I’ll know that that’s not my students’ writing.” Which, frankly, I think is a good thing, because that tells me that the teachers know their students’ writing. They’ve seen them write in person. They’ve conferenced with them one-on-one. And if a student were to turn something in to me, who I know might be a struggling writer, maybe it’s not their strength, and all of a sudden they’re turning in this10-page dissertation-worthy thesis written at a PhD level, I’m like, “All right, man, you’re nine. Can we talk about where this came from?” <laugh> But I also don’t think that at like the heart, I don’t feel like kids want to cheat. I really don’t. I feel like sometimes like kids are in a situation where they’re like, “OK, I’ve got nothing left. I gotta get this assignment done.” And when those kind of things happen, that’s when we as teachers, we have those one-on-one conversations. Even when I showed my students ChatGPT and even some of the AI image-generating stuff for the first time, and I talked to them about, “What do y’all think about this?” Because, you know, they’re under 13. In my district, ChatGPT is blocked for students. Staff, we have access to it. And that’s just because one, it’s so new, and at the same time, we need to figure out, “What’s the best way they can go about using this tool?” But when we were talking about it as a class, you know, I didn’t want to ignore the elephant in the room. So I asked them, I said, “Hey, do you feel like this is something that you all would use to. …” I mean, I used the word. I said “cheat.” And to be honest, the majority of the students in my class, they were taken aback. They’re like, “What? You think we just would cheat all the time?” Right? <Laugh> And I’m like, “Oh, well good. I’m glad to know that integrity is still alive and well.” But yeah, that’s definitely my thoughts on it, as far as not only the student integrity piece — I think that that’s the big thing that you need to just bring up with your students. Because again, I like to think that I’ve seen my students write enough that if they were going to turn something in that wasn’t their voice, or it didn’t sound like them, like I could have that conversation. And don’t be surprised, too, if in the next … I don’t know, one month to a year, there’s lots of AI detectors that exist. A lot of them are these like third-party things. You can go ahead, but I would not be surprised if in the next year or so, like you start to see those AI detectors be built into Google Docs, into Microsoft Word, into even Canva. And honestly, it’s almost like a fail-safe button for teachers, that we could say “All right, this is telling me that this is 99% probably written by AI.” So you can have that conversation with a student that way.

      Jennifer Roberts (00:20:03):

      I mean, if you’re worried about it, Formative, right now, will even tell you if something is copy-and-pasted into the boxes that they give you for students to write in. I find that kids who cheat are desperate, you know. Especially at the high school level. They’re panic mode. And, and usually their panic comes from, “I have no idea how to even start this assignment.” And so part of what I wanna use ChatGPT for is to lower that barrier for them. Like, you’ve got an assignment, you don’t know where to start. Tell the robot, tell ChatGPT, about the assignment and ask it for a list of steps. You know, ask it for an outline. Ask it for a time management plan. I see so much tremendous potential for this to help many of my students with IEPs who have executive functioning issues.

      Donnie Piercey (00:20:49):

      Oh, a hundred percent, right?

      Jennifer Roberts (00:20:51):

      Yes, a hundred percent. This can be their personal assistant who, you know, instead of me sitting with them one-on-one and saying, you know, “This is the task you need to do, let’s break it down into these six discrete chunks,” the artificial intelligence can do that for them. And it can do that for teachers too. <laugh>

      Donnie Piercey (00:21:09):

      Jen, I was just thinking about, how long until we see like the phrase artificial intelligence written onto a student’s IEP? I could see that happening very, very soon.

      Jennifer Roberts (00:21:20):

      Right? They should be able to use that. And then, also, of course, all of its amazing beneficials for teachers. I had to completely rewrite a unit of my curriculum. I knew what I wanted to do. I had some ideas of things I wanted to put in there. And I resorted to, I went to EducationCopilot.com and typed in my stuff that I had: You know, what standards I wanted to cover, what outcomes I was hoping for mm-hmm. <affirmative>. And it generated an eight-week unit for me. And I actually told it then to go back and do it as a 12-week unit so that I’d have more stuff in there to go and cherry-pick to decide what I really wanted to do. But it gave me ideas. It gave me places to start. It saved me an hour of just brainstorming. And I don’t think that was cheating. I still got to go in and decide which ideas were valid. And I still got to … you know, I mean, I’m a teacher. Can I get accused of cheating? I don’t think that’s a thing. It’s—

      Eric Cross (00:22:18):

      That’s collaborating! It’s collaborating!

      Donnie Piercey (00:22:20):

      Collaborating! It’s a feature! It’s a feature.

      Jennifer Roberts (00:22:22):

      It’s Tony Stark talking to Jarvis. You know, they’re figuring it out together.

      Donnie Piercey (00:22:26):

      Oh, when you use the AI, Jennifer, do you call yours Jarvis? In my class we call him Jeeves. ‘Cause remember Ask Jeeves?

      Jennifer Roberts (00:22:33):

      I think Eric calls it Jarvis.

      Eric Cross (00:22:35):

      Yeah. Jarvis is gonna be the AI’s name when, when I can get that fully functioning. There are some things that you had said, I just wanna circle back on. Donnie, Jen — so what I heard was like, best intentions. The part you said about integrity and students wanting to cheat … even the mindset that we go in assuming our students, what they would want to do and assuming best intentions, really kind of frames how you look at this kind of technology. And then Jen, you kind of brought up why students cheat, and realizing that either they don’t feel equipped, or maybe it’s time management, or something else. But most people — and I believe this as an educator — most students want to learn, and they want to be able to perform and achieve. And when they cheat, it’s because they didn’t feel like they could, for whatever reason. Whether it’s it’s outside factors, whether it’s something internal, motivation, whatever it is.

      Jennifer Roberts (00:23:24):

      Or they were very disconnected and just didn’t care.

      Eric Cross (00:23:27):

      Sure.

      Jennifer Roberts (00:23:27):

      This is just busy work the teacher’s giving me, so I’m gonna give it very little of my time and energy. But I think, yeah, it can be that. But if the kid cares about it, if they wanna learn, they wanna learn, you know?

      Eric Cross (00:23:40):

      Right.

      Jennifer Roberts (00:23:40):

      This is the day of the internet. Any kid can learn anything they really want to learn. And we see that all the time in our classes. The kid who has zero interest in what I’m teaching in English, but he is an expert coder, and that’s what he wants to spend his time learning. He’s like, “Can I read this C++ book as my independent reading book?” And I’m like, “You know, actually, you can. Go ahead.” <Laugh>

      Eric Cross (00:24:01):

      Yeah. And for both of you, saying that this makes content more accessible … and I think Donnie, or Jen, you said something about IEPs. I actually put in having it write an IEP to see what would happen. I gave it a prompt for a student’s ability level and I asked it to create a plan. And then I asked it to create a rationale. And it did! And it was good! I went through and vetted it. And right now … you know, a lot of it is funny, ’cause the conversation I’m having with different teachers is kind of like the Wikipedia one. Remember when Wikipedia first got out and everyone was like trying to discourage everybody from using it, because, well, it could be changed by anybody? And now everyone’s like, “Oh, check Wikipedia, and then steal the sources, ’cause they’re already done for you.” Like, the mindset has shifted since then. And I was talking to someone and they said, “Well. …” And I said, “We can use AI, it could be a tutor, these other things. …” And they said, “Yeah, but what happens?” And then insert apocalyptic scenario. Like, what happens if you don’t have access to wifi? And it reminded me of, for some reason, cooking classes. So in the 1700s you probably had to be able to farm to be able to generate your food. Right? Like, you had to get it from somewhere. But if you take a culinary class now, you just go to the grocery store. And someone might say, “Well, but you should know how to farm, ’cause what if there was this worldwide apocalypse and nobody could go to the grocery stores?” <Laugh> And you’re like, “Well, balance of probability though.” You know, it’s like we’ve been really been living in these iterations of life, and I think this next step for some folks … like, we don’t even realize, even like something like bank statements, right? So many folks are paperless. And there’s always a what-if scenario. What if you need it and the internet goes down. But we get so used to to to technology advancing and making our lives different. This kind of seems like that next iteration. And I wanna ask you this question: Are we looking at like the next calculator? The next internet, with this tech? Or do you think it’s too early to say?

      Donnie Piercey (00:26:01):

      Well, I’ve seen a lot of people compare ChatGPT to a calculator. I’ve seen that pop up on social media. There’s, “Oh well, no, this is like when the calculator was invented. Everyone was up in arms about how ‘that’s not what math students should do.’ Math should be pencil and paper, math should be this.’” However, you can give a kid a calculator and you can give ’em a word problem and they can punch in all the numbers, but they could do the wrong operation or they could put the decimal point in the wrong place, ’cause the student is still the one who’s controlling what’s on the calculator. Where with AI, all you gotta do is just copy it and then paste it into the bot and it’ll spit out whatever the question asked it for. Whether it was, you know, a 500-word rationale or proof for something in geometry, or if it’s analyzing data on a chart, it’ll do all that.

      Jennifer Roberts (00:27:00):

      Yes. But it’s not that magical. It’s back to what Eric did with the IEP. He put in a prompt and then he knew enough to ask for a rationale and then he knew enough about IEPs to critically read the results he got and make sure they actually worked for what he needed. He had to know all that. He was an expert using it to do an expert thing. My husband’s a computer scientist; he got ChatGPT to help him write an app, and it was a new programming language to him, and he could put in the data and he could ask for things that I would’ve never thought to ask for. But because he knows the language of computer science, he knew what to ask for. And when it gave him results that were bad, he could see that, and he could say, “Yes, but do it again, but without this,” or “make this part more efficient.” He, again, knew what to ask for. So I think the generative AI is, as a partner with humans, a powerful thing. But if the human doesn’t know what they’re doing, yeah. You’re still not gonna get great results.

      Donnie Piercey (00:28:03):

      <laugh> And I think that’s why I’m coming at this from the elementary school perspective, right? Because in K–5 students are still learning, like, “Hey, where does the decimal point go?” They’re still learning, you know, if you’re dividing by a two-digit number, where does the first digit go, if you go in the old long-division algorithm? And so they’re still acquiring that base-level knowledge that … I don’t know, maybe this is similar to in Jurassic Park when Jeff Goldblum says, “It didn’t take any knowledge to attain,” you know, “they stood on the shoulders of geniuses,” that whole thing. Like they had to acquire the knowledge for themselves, was his whole point. And so that’s why I don’t think it’s exactly the same as the calculator. It is definitely going to change things, in a similar way that the calculator did. But to me it’s just a whole new animal. And I don’t know if it’s going to be like the next internet, Eric — if you’re gonna get little devices that have AI built into it, like a Star Wars kind of thing, like a droid or something that follows you around — all that would be kind of cool, not gonna lie. But whether it’s something that you’ll access through the internet, something that’s built into your TV, that part I don’t know. But I do know that there’s a reason why all of these apps and all these companies are investing so much — not just energy, but time and money into it. Because they’re recognizing. “OK, this really has the potential to change things.” But if used well, and used safely, to change people’s lives for the better.

      Eric Cross (00:29:41):

      So I definitely hear that you both agree with the statement that if AI ChatGPT was used in the classroom, it could be a force for good. And literacy development. And I wanna shift gears a bit and then come back to the AI. So with that said — and we’re gonna get into some best practices in a minute — in Science Connections right now in this season, we’re making the case for how science can do more in classrooms and in schools. And so I’m I’m curious about what both of you think about the role in science fostering a better future when it comes to AI and education. And this season we’re really talking a lot about literacy. You know, in schools, so often it’s taught in a siloed way. And Donnie, you’re doing multi-subject. Jen, you’re single-subject: English. And we’ve really been trying to make this case for how science can actually support literacy, and these skills that students are trying to develop. So we’re going a little old-school, kind of diving into your content specialty, but maybe even pre-AI, or maybe AI has a component in this. But Don, maybe we’ll start with you. How has science been a way that has been helpful for your own literacy instruction? I know you do a lot of science, because I see your Google Earth stuff and the thing you did with the solar systems back in the day. And I think —.

      Donnie Piercey (00:30:54):

      Oh my gosh! You remember my <laugh> … wow.

      Eric Cross (00:30:58):

      That was amazing!

      Donnie Piercey (00:31:00):

      We haven’t done that since the pandemic. But I had my students go out, and using Google Earth, we built a scale model. Each of the students partnered up and they planned out on Google Earth a scale model of the solar system. They picked an object from around their house and we talked about like, “Don’t pick something bigger than a beach ball, or else, you know, your Neptune’s gonna end up like 10 miles away.” But you know, they just picked like a small ball, like a basketball, soccer ball, something like that. Or football, for international friends. And then we calculated the size of every other planet. And then on Google Earth, using their front lawn as where the sun was, then we went and we calculated where other planets would be, and then we actually drove to those locations and like held up the objects that would represent Neptune, Jupiter, Saturn, and all that. But it was a lot of fun.

      Eric Cross (00:31:59):

      And is that still accessible? ‘Cause I know you have some websites that you put resources out there.

      Donnie Piercey (00:32:03):

      Yeah. Yeah, I can … I wanna say on my Resources page — Resources.MrPiercey.com — I’ve got a link on there to a couple of student examples that I can share. And if not, when we get off this call, I’m gonna go on and put them on there <laugh> so people can find it. I’ll even throw on there just the assignment itself. So if you wanted to copy that and do that with your students, you could.

      Eric Cross (00:32:27):

      Donnie, the reason why I brought that up is because I saw that you had posted that or shared it a long time ago, and I just thought it was the coolest thing that you could totally do with middle-school students or high-school students. Jen, when I became a teacher, you said, “We’re all teachers of literacy.”

      Jennifer Roberts (00:32:43):

      <laugh> Yeah. I think we forgot to tell them that I was one of your professors.

      Eric Cross (00:32:47):

      Yes. <Jennifer laughs> One of the people who’ve definitely influenced and shaped my teaching. And that statement has never left my mind: that we’re all teachers of literacy. And I want to ask you, at the high-school level, how can science educators, or how can science — how have you seen it, or how does it, support literacy, when it’s done right?

      Jennifer Roberts (00:33:09):

      Like I said, I think we’re all teachers of literacy, but I think literacy is bigger than just reading and writing. I don’t think someone is literate if they can’t talk somewhat knowledgeably about what’s happening with climate change. I don’t think someone’s literate if they don’t know what’s going on in the world. And I think so much of what’s going on in the world has to do with science. We’re doing that all the time. If I could teach English just by giving kids articles about science, things to read, that would make my day. Right? We would never read another piece of fiction again. It would all be, you know, what’s happening to the ice sheet in Greenland. My students thrive on reading non-fiction. And then whenever that non-fiction touches on science is even more interesting. And whenever I can get them writing about data, particularly their own data that they collected, I think that’s building those science literacy skills as well. So I think science and English blend together very, very well. I think the literacy aspects of that are fantastic. There are more subject-specific vocabulary words, advanced vocabulary words, in science than any other discipline. And I don’t see why those shouldn’t come up in English as well. You know, my seniors will do a unit at the end of the year on the new space race. Unless I replace it with a unit about generative AI, which I’m seriously considering doing, ’cause I think they really need to learn about bias in AI algorithms and things like that. And I would like to have them read a whole bunch about that stuff. And I wanna give them the open letter that all those CEOs signed that said that AI research should slow down, and make them part of that live conversation about what’s happening in that field. So science comes into that. You know, when we read Into the Wild, we start talking about a whole bunch of scientific concepts. And when it rains in Southern California, we pull up weather maps and look at radar and talk about that and how that works.

      Donnie Piercey (00:34:59):

      That’s like once every 10 years, Jen? <Laugh>

      Jennifer Roberts (00:35:02):

      Well, actually, this year it rained a lot. It rained a lot in San Diego. Which is actually very high-interest for them. ‘Cause they wanna know, is it gonna be raining at lunchtime?

      Eric Cross (00:35:12):

      Jen, you said something … you have your students writing about data?

      Jennifer Roberts (00:35:16):

      Oh yeah.

      Eric Cross (00:35:17):

      Can you tell me more about that?

      Jennifer Roberts (00:35:19):

      So, this is something we’ve done with the ninth grade team for a long time now, is writing about their own data. So it started with a unit about stereotypes and stereotype threat. And they would collect data individually and then they would enter that data into a Google form and then we would give them the spreadsheet of the aggregate data from the whole ninth grade. And then we morphed that unit into one about academic honesty, and they filled out a survey at the beginning of the unit about their feelings about academic honesty and about experiences with academic honesty and cheating and homework and things like that. And then we would do the unit. We’d do all the readings in the unit. And they’d have these “aha” moments about things that were happening at other schools. And then at the end of the unit, we would give them back their own aggregate data and ask them to write about whether or not academic honesty was an issue at our school. And then to support that answer with evidence from their own dataset. So they had that spreadsheet to comb through and figure out, you know, where am I gonna stand on this? We give them the multiple-choice questions we gave them as the graphs, in Google Slides, so that they could write about them and talk about them, too. So yeah, getting kids to write about data. And the the sentence frames we gave them were sentence frames out of, They Say, I Say, from the chapter on writing about science. And <laugh> as they write this stuff, they’re like, “I feel so smart writing this way.” And I’m like, “I know, ’cause you’re writing about big important topics!” Right? And writing about their own data come to think of it is another great way to make an assignment both very personal to them, but also make it ChatGPT-proof, you know, if you’re looking for something that kids can’t just hand to the robot, the robot doesn’t have that data set.

      Eric Cross (00:37:08):

      Absolutely. And Donnie, at the elementary level, do you, do you make connections between science and literacy? In your class? You talked about with math, definitely with the solar system, but now, I’m curious, what are your newer projects? What have you been working on lately?

      Jennifer Roberts (00:37:23):

      What’s up now, Donnie?

      Eric Cross (00:37:24):

      Yeah, what are you doing?

      Donnie Piercey (00:37:25):

      Oh, man. Well, let me think. I’m just trying to think of some fun projects that we’ve done this year. Science that we can tie in Literacy and also some student creation. Just recently we had a … so I’ve wanted to expose my students to famous scientists that weren’t just white dudes from Europe. So for this year, what I did — and I actually used AI for this — I went into ChatGPT and I asked for 64 famous scientists and it listed them all off. And then I asked it, like, how many of these were white? And I think it said like 61 of them. You know, it had like Neil DeGrasse Tyson, and a couple of other … I didn’t know who they were. So I’m like, “All right, so we need to make this more diverse and make this more equitable.” ‘Cause you know, with the student population in my classroom, try to find equal representation to make sure they can see themselves in some of these scientists. So, eventually got it narrowed down to where I had about 64 scientists. Half are women, half are men from all continents except Antarctica. I assigned these scientists to my students. Some got two; some got three. And their assignment was to go and one, do some individual research on this person, find out what they were famous for, what they were most well-known for, turn it actually into a persuasive piece, where I said, “Hey, you’re gonna have one slide.” And I’ll tell you why I gave him one slide in a minute. On that one slide, you’ve gotta convince the person who sees it that this scientist is the most important scientist since the dawn of creation. I said, “You could use images, text — I don’t care if they were famous for something that you didn’t even understand what it was. It’s a persuasive piece. You’re 10. Go all out. Add gifs, do that whole thing.

      Eric Cross (00:39:21):

      This is awesome.

      Jennifer Roberts (00:39:21):

      I wanna do this project.

      Donnie Piercey (00:39:23):

      And if you picked up on the number 64, and I did this in March, so what we did was throughout the weeks of March Madness of the women’s and men’s NCAA tournament, whenever a game was going on, we had another round of voting. I just paired ’em up. I was gonna like seed them, like 1 to 64 — that’s just way too much work for me <laugh>. So I just kind of did random kind of thing. But all the students had to do — they just saw the slides side-by-side, and the only question they had was, “Based on what you see here, who is the most important scientist? This person or this person?” And it eventually came down to Carl Sagan going up against Marie Curie.

      Eric Cross (00:40:04):

      OK, that’s a good matchup.

      Donnie Piercey (00:40:06):

      Yeah, well, the Marie Curie slide, they just liked the radium piece. So they added like some green glowing gifs. And I said, “Guys, it doesn’t always grow glow green.” But whatever. Anyway, eventually Carl Sagan, in case you wanted to know, according to the 10-year-olds in my classroom, is the most important scientist in the history of the world. So I don’t know if I agree with that per se — I think maybe Newton or somebody else might have had something else to say about it — but fun assignment. It was a unique way to expose my students to a bunch of ideas. I remember the student that I assigned Newton, the only thing that that she knew about Isaac Newton was “Didn’t he get hit in the head with an apple?” And I said, “Well, not exactly, I think you might have read or maybe seen too many like old-school cartoons or whatever.” But she ended up doing some research. She’s like, “Oh, I’ve heard of that before! That equal and opposite reaction thing.” Didn’t know what it meant. I had another student that just got really … you know, if you’ve ever been on one of those YouTube kicks where it’s just, you go like nine levels deep onto like, “What does this theorem mean?” Student sits in back of my classroom, I walked by one day and he’s just watching something on like the fifth dimension and what it might be. And I said, “Oh, your scientist got you started on that.” So definitely was a lot of fun. Unique way to combine reading, writing, but also expose my students to some ideas. And we’re definitely gonna do it again. I’ve actually done this assignment before. I picked 64 random elements on the periodic table. But their only slide that they have to make is “What’s your element? What is it used for? And then, why is this the most important element since the dawn of creation?” <Laugh> And, you know, there’s always that student that gets hydrogen. They’re just like “Sweet!” Right? They get excited about that one. <laugh>

      Eric Cross (00:41:59):

      Explosions.

      Donnie Piercey (00:42:00):

      Yeah. But then, for that kid who likes a challenge, or that student with the “gifted” label, you give them, like, einsteinium or palladium. Some of the more challenging ones. And they go all out with this. I didn’t use AI for that one, but it was kind of fun, and I figured it’d be neat to share an idea that another teacher could try.

      Eric Cross (00:42:20):

      Well you probably have at least two teachers right now that are gonna go and try that. And we’re both looking at you. So.

      Donnie Piercey (00:42:24):

      Go for it.

      Eric Cross (00:42:25):

      Thanks for that idea. I’m imagining my students coming in with jerseys with “neon.”

      Donnie Piercey (00:42:29):

      Oh yeah. <laugh>

      Eric Cross (00:42:30):

      “Neon” on it. Just all ’80s out.

      Donnie Piercey (00:42:33):

      The game behind it, too, is you tell kids — again, this is just so the 10-year-olds in my class don’t get their feelings hurt — but I say, “Hey, and if your element gets knocked out, you just have to start cheering for whoever beats you in the tournament.” So by the end, you kind of got half the class cheering for one and half the class cheering for whatever.

      Jennifer Roberts (00:42:53):

      So the only thing I got outta that whole story that I’ve got for you is, as a child I met Carl Sagan. That’s all I got.

      Donnie Piercey (00:43:02):

      For real?

      Jennifer Roberts (00:43:02):

      For real.

      Donnie Piercey (00:43:03):

      So did he talk with that cadence and tone?

      Jennifer Roberts (00:43:06):

      Yes.

      Donnie Piercey (00:43:06):

      Like in real life? Wow.

      Jennifer Roberts (00:43:07):

      Yes. My father was one of the cinematographers on the original Cosmos. And I got to go to the set a few times.

      Donnie Piercey (00:43:14):

      That’s incredible!

      Jennifer Roberts (00:43:15):

      I did not appreciate what I was seeing as a child. But as an adult, I’m like, “That was cool. I was there.”

      Donnie Piercey (00:43:20):

      “You can see my shadow off in the distance.”

      Jennifer Roberts (00:43:23):

      I mean, maybe that’s part of why I’ve always had an interest in science. I’ve always had fantastic science teachers. Every science teacher I ever had was amazing.

      Donnie Piercey (00:43:31):

      I credit mine to Mr. Wizard. I don’t know if you ever watched Mr. Wizard and Beakman’s World?

      Eric Cross (00:43:35):

      I remember Mr. Wizard. Yep. Yep. I definitely remember Mr. Wizard, Beakman’s World, all those. That was on Nickelodeon back in the day. I had to get up early to watch that one. But there’s a YouTube video—

      Donnie Piercey (00:43:44):

      Six am!

      Eric Cross (00:43:44):

      <laugh> It was! It was super-early! But there was one, Don, I don’t know if you’ve seen this on YouTube, but it said “Mr. Wizard Is Mean,” and it’s just clips of when he’s—

      Donnie Piercey (00:43:56):

      Yelling at kids!

      Eric Cross (00:43:56):

      Chastising. Or being really direct. It’s just one after another.

      Donnie Piercey (00:44:02):

      He always asked ’em a question and if the kid, you know, didn’t answer it right, he’d be like, “Well, you’re not right, but you’re wrong.” You know, whatever. <Laugh>

      Eric Cross (00:44:14):

      I have to make sure I’m not subconsciously saying Mr. Wizard quotes when I’m talking in the classroom, when things are happening. But yeah, that video’s hilarious. So I just want to bring us back to AI, and ask this question: Do you think science has a special role to play when it comes to teaching kids about AI responsibly? Does science have a special role in that?

      Jennifer Roberts (00:44:36):

      I think the responsible piece of AI I wanna teach my students about is the part about the bias in the algorithms and the bias in the training. And I want them to understand how it works, well enough to make informed decisions about how it impacts their lives.

      Donnie Piercey (00:44:56):

      Hmm.

      Jennifer Roberts (00:44:57):

      Because I do have concerns about a tool that was trained on the internet. And the answers it gives you is the average of the internet. And do we trust the internet? And the answer from kids is always, “Well sorta, no.” <Laugh> So I want them to understand the social science behind that.

      Donnie Piercey (00:45:18):

      Yeah. And just along that same point, having the students recognize that just because, you know, you copy-and-paste a question in, the answer it spits out might not always be correct. So, teaching them that just like you would with a source that you find about a topic that you’re researching, you’ve gotta fact-check.

      Jennifer Roberts (00:45:44):

      It’s just like being a good scientist. A good scientist wouldn’t always accept a single result or the first result. You know, you would look at multiple angles. You would try things different ways. Last week I took the article my seniors were reading about victim compensation after 9-11, and in front of them, I gave ChatGPT, I said, “Are you familiar with this article by Amanda Ripley? And ChatGPT came back and said, “Oh yes, this was written in the Atlantic in 2020 and it’s about these things, blah, blah blah.” And my students looked at that and went, “That’s not the article we read.” And I said, “I know. It got it wrong. That’s amazing!” Yeah. And I was so happy that it got it wrong! ‘Cause I wanted them to see that happen.

      Donnie Piercey (00:46:21):

      And I guess one of the big science questions there, or one of the big science components there, is that idea of inquiry. Right? It’s almost like you have to teach students how to ask those deep questions about what AI spits out.

      Eric Cross (00:46:35):

      All of those tips are great. And it leads me to this last question I want to ask. New teachers that are out there — it actually doesn’t even matter; new teachers, experienced teachers, all of us are kind of new at different levels of this race. We’re all kind of starting it together. I mean, it hit mainstream. We’re all getting exposed to it. You all really dive into it. When tech comes out, I know you two really like, “OK, how can we use this to transform education and do awesome things for kids?”

      Donnie Piercey (00:47:04):

      Usually, when new tech comes out, “How can this make my life easier?” is usually the question. Yeah.

      Jennifer Roberts (00:47:09):

      “How can I save myself time with this?” Yes.

      Donnie Piercey (00:47:11):

      “How can this result in me watching more TV and you know, less grading,” sometimes.

      Eric Cross (00:47:16):

      And I start there like you, but then I end up more time that I fill with another project. And I need to learn how to stop doing that. I’m like, “Oh! I got more free time! … to go take on this other task.”

      Jennifer Roberts (00:47:28):

      Oh, all of my tech adoption is driven by “how can I work less?”

      Eric Cross (00:47:32):

      So you’re you’re talking to a new teacher, teacher’s getting exposed to this, they’re starting the school year or they’re just getting their feet wet with it. What advice would you give them about AI, incorporated into content or even just best practices? Where you’re at right now in your own journey, and someone’s asking you about it —what would you share with ’em? And Jen, I want to start with you.

      Jennifer Roberts (00:47:53):

      So, the first thing I did is I was in the middle of grading, you know, 62 essays from my seniors about Into the Wild, when ChatGPT became a thing last November. And I wanted to see what would happen. So the first thing I did was take the prompt that I had given my students and gave it to ChatGPT, ’cause I had just graded a whole bunch of those essays and my brain was very attuned to what my rubric was doing and what I was expecting as the outcome. So I could take what ChatGPT gave me as that quote unquote “essay” and evaluate it critically. And I was ready to do that. So my first advice is take something you’re already asking students to do and ask ChatGPT to do the same thing. So that as you look at the student results, you can compare that to what ChatGPTgives you. If what you’re finding is that ChatGPT can generate something that would earn a decent grade from you, you might need to change that assignment. And it doesn’t need to be a big change, but it might need a tweak or something, so that it, it does rely on the student voice, the students to do something more personal. I’m finding very helpful in my classroom is having my kids do projects where they are recording themselves on — I like Flip. So they’re writing a scene together and they’re having to record the scene together. And I’m emphasizing more of the speaking roles than the writing roles necessarily. So yes, first, take something you’re already doing, paste in to ChatGPT, see what the results are, see how that fits with what your students are doing, and then do that for every assignment you give and just sort of see what comes out of that, and see which assignments are failing and which assignments are working. ‘Cause that’s gonna give you a sense, when you do see one of those results from your students, you’ll be able to recognize it. But it’ll also help you tweak your assignments and decide, “How can I make this a little more original or a little bit more authentic for my students?” And if the robot, if the AI, can’t generate a response, what could the AI do that would be helpful to your students? Would be my next question. So can you use the AI to help them generate an outline? Can you use the AI to help them generate a list of steps to help them get started? And when you’re comfortable enough doing that by yourself, then don’t be afraid to open it in front of your class. If it’s not blocked at your school site, which I hope it’s not. Because I think the advantage goes to kids who have access to this in the long run, or at least see what it is and know what it is. Right? Because if a kid graduates from school without knowing that AI exists, they’re not gonna be prepared for what they face out in the world. So give them a chance to see you using it. Model effectively using it. I have a blog post about that. I just wrote it. LitAndTech.com. You can check that out. “Introducing 9th graders to ChatGPT.” How it went, right? There’s a chart there you can have. It’s my very first draft of this, but it seems to be very popular. So, you know, show students how it can be used as their mentor. If I can’t come read your paragraph because I have 36 kids in my classroom and I cannot stop and read everybody’s first paragraph, can you, if you want to, give your first paragraph to ChatGPT and ask for advice? And will that advice be helpful to you? So showing students how it can be used responsibly is, I think, something every teacher should be doing right now. And don’t hold back just because you’re afraid you’re gonna be teaching them what this is. They know what this is. Right?

      Donnie Piercey (00:51:13):

      They know what it is.

      Jennifer Roberts (00:51:13):

      Especially if you teach high school. They know what it is. I’ve had parents thank me for showing them how to use it responsibly. You know, this can actually be a really useful tool, but if you’re trying to make it do your work for you, it will probably fail you. If you’re trying to use it to help you do your work, it will probably be helpful. Sort of the way I’m breaking it down for them at this point. You want the great metaphor? The great metaphor is if you build a robot and send it to the top of a mountain, did you climb that mountain? No. If you build a robot and ask it to help you get to the top of the mountain, and you and the robot go together, did you climb that mountain? Yes.

      Eric Cross (00:51:53):

      I like that. I’m thinking through this. I’m processing that now.

      Donnie Piercey (00:51:57):

      Me too.

      Eric Cross (00:51:59):

      Yeah. I just imagine a robot holding my hand climbing Mount Everest and I’m like, “Yeah, I did it.”

      Donnie Piercey (00:52:04):

      If I got a robot though, like I would have to dress it like Arnold Schwarzenegger in Terminator 2. Like I would just have to.

      Eric Cross (00:52:10):

      Of course.

      Donnie Piercey (00:52:10):

      Of course.

      Eric Cross (00:52:13):

      Donnie, same question. Advice. Teachers getting immersed into it. Tips. What would you say?

      Donnie Piercey (00:52:20):

      So, I would definitely agree with everything that Jen said. Just, if anything else, to familiarize yourself with it. Almost like pretend like it’s a student in your classroom and it’s answering questions, just so that way you can see what it can do. And you’re kind of training yourself, like, “Oh, well, if I ever need examples, exemplars.” If you’re in a writing piece and you don’t wanna sit there and write out four different types of student responses — you know, advanced writer, beginning writer, whatever — great way to to do that is you just—

      Jennifer Roberts (00:52:48):

      Oh yeah. We did that.

      Donnie Piercey (00:52:48):

      —copy the prompt in and give a beautifully written piece that a fifth grader would be impressed with. Boom. It’ll do it for you. In my classroom, the way that I approach it is I kinda look at AI as almost like this butler that I don’t have to pay. That if I need it to do something for me, it’s just bookmarked. I can click it. And I mean, sometimes I just talk to it like it’s a person. And it’s almost like, in the chat window, I’m just rambling at it, what I’m trying to do. And it’s almost like I’m talking to a coworker, and I’m trying to hedge out some ideas for a lesson. Simple example: For a science lesson, if you’re trying to come up with … let’s say you’re a fifth-grade — or, sorry, I teach fifth grade. Say you’re a seventh-grade science teacher. And you’re trying to teach the students in your class about Newton’s third law of motion. You know, every action [has an ] equal and opposite reaction. Look around your room. See what you have. Maybe look around and you’re like, “All right, I got a whiteboard, microscope, I’ve got magnets, a cylinder. …” And you just copy all this stuff into ChatGPT. Say, like, “Hey, I have all of these items. Cotton balls, peanut butter, whatever.” And say, “I’m trying to teach students Newton’s third law of motion. Give me some ideas of some ways I could teach it using some of these materials.” And it’ll do it! It’ll give you like five to 10 ideas!

      Jennifer Roberts (00:54:15):

      And then tell it what your students are into. Like, my students are really into basketball. Can you work that into this lesson?

      Donnie Piercey (00:54:21):

      Yeah! They’re into the Avengers! Hey, find some way to tie Spider-Man into this. You know, that was a pun that didn’t go so well. But, you know <laugh> figure out some way that you could incorporate this and it’ll do it. And Eric, like you said, it won’t be perfect. Right? But if anything else, if you’re a starting teacher and you’re trying to brainstorm ideas — try it.

      Eric Cross (00:54:44):

      And Donnie, as you were saying that, I was thinking — first, I imagined Spider-Man shooting cotton balls with peanut butter all over them — and then my mind went to having students have these items, like you were saying. And then they create labs, working alongside AI. To do inquiry. To create a lab about something, and then going and performing and collecting data. OK, that’s — now I wanna go do that tomorrow!

      Donnie Piercey (00:55:10):

      Listen, it is so easy to do. If you have an extra computer in your classroom. … We were talking about Jarvis and Iron Man and Tony Stark earlier. Make a new chat in ChatGPT. Tell it, “I want you to pretend that you are Tony Stark. Only answer questions as if you are Tony Stark.” Or “Pretend you’re Jarvis.” Whatever. “Stay in character the whole time. I’m going to have sixth grade students come up to you and ask you questions about science or forces of nature, and only answer questions like you’re Iron Man.” And guess what? You keep that station in your classroom. Students are working on a project — you know, in elementary school, a lot of times we’ll have that, “ask three before me” — you’re supposed to ask three friends before you go and bug the teacher. Well, maybe one of those “three before me” can be that little computer station, where they go up and ask Tony Stark a question, and then it answers them as Jarvis or Iron Man. I mean, we’re really just scratching the surface with all this AI stuff. And as more and more companies and more and more creatives are gonna start to realize everything that it can do, we’re gonna start to see it more and more. And hopefully we as teachers can really figure out how to use this tool to, of course, help students, but also help them be creative and explore and learn on their own.

      Eric Cross (00:56:35):

      That’s amazing. And just both of you are just dropping gems right now. And I wanna wrap up by saying — and I’ve said this before on earlier podcasts I’ve done — but at this phase in my life, the people that I’m the biggest fans of are teachers. And it’s true. I don’t mean that in a cliche way. When I watch celebrities and things like that, when I watch professional sports, that doesn’t fill me the way it used to when I was a kid. At this point, as a professional, I get inspired by other educators who are just doing awesome things. And when I think about educators who are doing that, you two are on that list of people that make me better. And when I get better, I can do better things for my kids. And so, one, I want to thank you for staying in the classroom and continue to support students. They’re so lucky to have you both. The second thing I wanted to say is, Jen, I wanna start with you. Where can people — and I know we said at the beginning — but where can people find the stuff that you put out? You got blogs, your social, your book.

      Jennifer Roberts (00:57:28):

      I got lots of social. Twitter, I’m JenRoberts1 on Twitter. And then my blog is LitAndTech.com. And then I’m on lots of the new social too, the Mastodons, the Spoutables, the Posts — those kinds of things — as just Jen Roberts, because I got in early and I got my real name without a 1. And there was some other one I’m on recently that I’ve forgotten about. But there’s lots of ’em. They’re fun. And I’m Jen Roberts. You can find me there.

      Donnie Piercey (00:57:56):

      And I’m SergeantPepperD on AOL, if anyone’s interested.

      Eric Cross (00:58:00):

      If you wanna hit Donnie up on AIM. <Laugh>

      Donnie Piercey (00:58:03):

      SergeantPepperD.

      Jennifer Roberts (00:58:04):

      You know, speaking of rock stars and people who do amazing things, I did write a blog post about using ChatGPT in the classroom, but I hear Donnie wrote a whole book.

      Eric Cross (00:58:13):

      Oh yeah. So, Donnie! Donnie, that’s a great segue. Thanks Jen. Donnie, how do people find out more? And can you tell us about this book you wrote, that’s coming out in the summer?

      Donnie Piercey (00:58:22):

      Yeah, so the book I wrote is called 50 Strategies for Integrating AI Into the Classroom. It’s published by Teacher Created Materials. They reached out to me. They had seen some of the stuff that I was doing, not just with ChatGPT, but also some image-generating AI stuff. You know, I got featured on Good Morning America, which was kind of cool. And they saw that and they said, ‘Hey, that looks really neat.” Reached out to me and asked me to write a book. And the idea behind the book, that launches this summer, it’s just 50 ideas, 50 prompts, different things that, as a classroom teacher, that you can do. So, you know, I think there’s so many AI books that are out there now. A lot of them are big ideas, which I think are important. Definitely important discussions that need to be, have around, the ethics of AI. What’s the role that AI should play in the classroom. But I just wanted to write a book, kind of like the discussion that, that Jen and I were just having, which is like, “Can we just share a whole bunch of ideas, different things that we could try with our students?” So definitely check it out. And I appreciate you giving me a shout-out too. That was cool, Eric. Thank you.

      Eric Cross (00:59:35):

      Of course. Definitely. And Donnie, your Twitter is again. …

      Donnie Piercey (00:59:39):

      Oh, @MrPiercey, M R P I E R C E Y.

      Eric Cross (00:59:44):

      Follow Donnie. Follow Jen. Tons of stuff on there. Both of you, thank you so much. For your time, for talking about students and how we can take care of them, science, literacy, AI. I hope we can talk about this again. I feel like even if in just six months, we might be saying different things. In a year, the landscape might completely change. And that makes it really fun. But thank you both for being on the show.

      Jennifer Roberts (01:00:04):

      Thank you for having us, Eric.

      Donnie Piercey (01:00:05):

      Thank you so much, Eric. We appreciate it, bud.

      Eric Cross (01:00:10):

      Thanks so much for listening to my conversation with Jen Roberts and Donnie Piercey. Jen Roberts is a veteran English teacher at San Diego’s Point Loma High School and author of the book Power Up: Making the Shift to 1:1 Teaching and Learning. You can keep up with her at LitAndTech.com. And Donnie Piercey is a fifth-grade teacher from Lexington, Kentucky. He hosts the podcast Teachers Passing Notes. Stay up-to-date with him at Resources.MrPiercey.com. And let us know what you think of this episode in our Facebook discussion group, Science Connections: The Community. Make sure you don’t miss any new episodes of Science Connections by subscribing to the show, wherever you get podcasts. And as always, we’d really appreciate it if you can leave us a review. It’ll help more people and AI robots find the show. You can find more information on all of Amplify’s shows on our podcast hub, Amplify.com/hub. Thanks again for listening.

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      What Jennifer Roberts says about science

      “If I’m not teaching my students how to use this, then they’re not going to turn into the adults we need them to be… If we’re not at least trying to think about what our future world is going to look like, then we’re not serving our students well.”

      – Jennifer Roberts

      High School English Teacher

      Meet the guests

      Jen Roberts is a Nationally Board Certified high school English teacher with 25+ years of experience teaching Social Science and English Language Arts in grades 7-12. She has had 1:1 laptops for her students since 2008 and is the co-author of Power Up: Making the Shift to 1:1 Teaching and Learning. A Google for Education Certified Innovator since 2011, Jen was named the CUE Outstanding Educator in 2022. Her interests include literacy instruction, standards based grading, and leveraging Google tools to make her teaching more efficient and effective.

      A woman with light skin and blond hair stands outdoors, framed by illustrated graphics including a blue flask and curved lines. Green foliage is visible in the background.

      Donnie Piercey, the 2021 Kentucky Teacher of the Year, is a fifth-grade teacher in Lexington, Kentucky.  With a passion for utilizing technology to promote student inquiry, learning, and engagement, he has been teaching since 2007. In addition to being in the classroom, he runs a podcast, Teachers Passing Notes that is produced by the Peabody Award winning GZMShows, and holds several recognitions, including a National Geographic Fellowship to Antarctica in 2018. His most recent work in Artificial Intelligence has not gone unnoticed, earning him multiple appearances on Good Morning America, the Associated Press, and PBS. His upcoming book, “50 Strategies for Integrating AI in the Classroom” published by Teacher Created Materials, is written for educators looking for practical classroom approaches to using AI. All told, Donnie has been invited to keynote and present at schools in thirty-three states and on five continents.

      A man with short brown hair and a beard smiles at the camera, wearing a red shirt, framed by a circular graphic with a blue flask icon.
      A laptop screen displays the “Science Connections: The Community” private group page, with science-themed icons decorating the background and edges.

      About Science Connections

      Welcome to Science Connections! Science is changing before our eyes, now more than ever. So…how do we help kids figure that out? We will bring on educators, scientists, and more to discuss the importance of high-quality science instruction. In this episode, hear from our host Eric Cross about his work engaging students as a K-8 science teacher. 

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      S1-05: How does coding fit in the science classroom? A conversation with Aryanna Trejo of Code.org

      Podcast cover titled "Science Connections" featuring Aryanna Trejo, Season 1, Episode 5. It includes abstract illustrations of a globe and telescope, discussing coding in the science classroom.

      In this episode, Eric sits down with Aryanna Trejo, a professional learning specialist of Code.org. Aryanna shares her journey from working as an elementary teacher in New York City and Los Angeles to teaching other educators at Code.org. Eric and Aryanna chat about computer literacy within the science classroom, problem-solving skills, and ways to model productive struggle for students. Aryanna also shares ways to teach coding and computer literacy in schools, no matter the classroom’s technology level. Explore more from Science Connections by visiting our main page.

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      Aryanna Trejo (00:00):

      I would hear teachers saying things like, “Well, I just can’t do coding; this is too hard for me; the time has passed.” And I would ask them, “Would you say that to your student about math or English?” And they would always sheepishly go, “No.” And I’d say, “Well, be as kind to yourself as you would be to your student.”

      Eric Cross (00:19):

      Welcome to Science Connections. I’m your host, Eric Cross. My guest today is Aryanna Trejo. Aryanna is a member of the professional learning team at Code.org. Before joining Code.org, Aryanna led computer science professional development for elementary school teachers, and served as an instructional coach for new educators. She also taught fourth and fifth grade in both New York City and in Los Angeles. In this episode, we discuss Aryanna’s journey to Code.org, where she helps educators connect coding to real life, how to use a rubber duck to solve problems, and how coding and computer science principles can be taught to students in areas without access to the internet…or even a computer. I hope you enjoy my conversation with Aryanna Trejo. So I was born and raised here, and I saw that you went to UC San Diego.

      Aryanna Trejo (01:11):

      I did, I did. I actually just put a deposit down on an apartment in University Heights, ’cause I’m moving back.

      Eric Cross (01:16):

      You’re coming back?

      Aryanna Trejo (01:17):

      I’m coming back. Yeah.

      Eric Cross (01:19):

      So if you need a classroom to visit….

      Aryanna Trejo (01:21):

      I would love to do more classroom observations!

      Eric Cross (01:24):

      Are we doing this? Let’s do—we’re making this happen.

      Aryanna Trejo (01:26):

      We are. Yeah. So I’ll be there. I’m moving there in April. I actually grew up in Orange County too, so I’m like a very diehard SoCal person.

      Eric Cross (01:35):

      So I feel like I know the answer to, hopefully—Tupac or Biggie? ‘Cause you’re on the East Coast, and you’re on the West Coast.

      Aryanna Trejo (01:40):

      Yeah. I like Tupac, but I have more Biggie songs committed to memory. Which is not a lot. I have “Juicy” and “Hypnotized” memorized.

      Eric Cross (01:53):

      All right. So you’re just memorizing, and you have the Biggie songs memorized, but not the Tupac ones.

      Aryanna Trejo (01:58):

      No, but I do love Tupac songs. You know, it’s like, Biggie has the flow, but Tupac has the lyrics. Nobody’s—they both have something really amazing about them.

      Eric Cross (02:06):

      You know, I can respect that you broke it down into both of their strengths.

      Aryanna Trejo (02:11):

      Thanks for buttering me up before this interview. And not….

      Eric Cross (02:15):

      <laugh> Oh, we already started.

      Aryanna Trejo (02:16):

      Huh? We already started?

      Eric Cross (02:17):

      We’re already started. Yeah. We’re already into this.

      Aryanna Trejo (02:19):

      We’re into it.

      Eric Cross (02:21):

      You were in the classroom, fourth and fifth grade, and you were doing TFA.

      Aryanna Trejo (02:26):

      I did. I did Teach For America. I was 2012, New York City Corps. Right after graduation. ‘Cause I graduated UC San Diego in 2012. So graduation was on June 17th, and I touched down at JFK on June 19th.

      Eric Cross (02:40):

      Even though I wasn’t in TFA, I know a lot of the fellows that are in it. And there’s just some phenomenal teachers in there. How long were you doing elementary school when you were teaching?

      Aryanna Trejo (02:49):

      Yeah, I taught for—well, I did, three years of teaching fourth grade. Then there happened to be an instructional coach opening in my fourth year. I took that, did some instructional coaching within the same network, and then I moved back to LA and I taught fifth grade for a year.

      Eric Cross (03:11):

      1. And what was it like now? Did you go to Code.org right after the classroom?

      Aryanna Trejo (03:17):

      No, I didn’t. No. I transitioned after teaching fifth grade for a year in downtown Los Angeles, in the Pico-Union neighborhood. I ended up getting this email out of the blue from someone who had actually found me through the Teach for America job site. ‘Cause I was hitting the pavement; I was really looking to transition out of the classroom. And she invited me to interview with this company called 9 Dots. And they taught computer science to kids K–6 throughout Los Angeles and Compton. And I was like, “Sure, no problem. Let’s do it.” So I interviewed, I got the job, and yeah, that’s how I transitioned to 9 Dots. And then after almost four years there, I transitioned to Code.org, with the same person. Actually, she moved over to Code.org first, and then she helped me get this job.

      Eric Cross (04:07):

      Oh, that’s happened a lot—like, that relationship kinda carries over.

      Aryanna Trejo (04:11):

      Yeah. We’re meant to be coworkers.

      Eric Cross (04:13):

      Yeah. Are you still? Is she still there? Are you both still together?

      Aryanna Trejo (04:17):

      Yeah, we’re on the same team and it’s nice. I saw her last night for Happy Hour, with another coworker who’s in LA. So we’re tight. And she’s a wonderful, wonderful mentor to me.

      Eric Cross (04:28):

      That’s great. Did you have computer-science background, when you were doing elementary school teaching? Did you have—

      Aryanna Trejo (04:34):

      No. <laugh> Not at all. When I was teaching in New York City, I had like four desktop computers in my classroom, and we rarely used them. Which was such a shame. And then when I moved to Los Angeles and taught fifth grade there, we were a one-to-one school, and the joys of that are just amazing. It was just really wonderful to, you know, get the students used to typing on the computer, using different software to submit their assignments. Getting creative—as creative as you can get—with Google Slides. You know, to show off what they know. And stuff like that. That’s all I had, though. And you know, when I transitioned to 9 Dots I was like, “Sure, why not? Let’s give a shot.” And I learned a lot. It was really interesting, yeah.

      Eric Cross (05:26):

      And so now at Code.org you are…well, so my journey with Code.org, I’ve been in the classroom for eight years. Still in the classroom as of…an hour ago, I was there. <Laugh> And I use Code.org, and I feel like I’ve checked it periodically, and I feel like it’s evolved over the gaps. And I’ve seen it. It’s become more robust in the things that they offer, over the years I’ve been an educator. Just to kind of…could you give a thumbnail sketch? Like, what is Code.org? Who’s it for? Who’s the target audience? What resources are there?

      Aryanna Trejo (06:00):

      Yeah. So it’s for everyone. It is a nonprofit that provides curriculum and training and a platform for teachers and students. We provide curriculum for K through 12. It’s completely free. And it comes with lesson plans, slideshows, all that. We focus specifically on underrepresented groups. So we have targeted measures for Black students, for Native American students, for students who identify as female. That’s a huge part of our mission. But we’re really working to expand access to computer science to as many students as we can.

      Eric Cross (06:41):

      One of the things I’m hearing in your story is you were teaching in Compton; you were in Bronx, New York. One of the reasons why I got into the classroom is because of educators, and the impact they made on me in exposing me to science and technologies I’d never had access to. And that intentionality, that you’re going about it…are there…not just the code, but how you bring that across to different groups…are there strategies, or are there ways to connect this idea of coding to diverse groups and diverse audiences? Or is it kind of, the curriculum applies for everyone? ‘Cause in science, when I’m teaching, I’m always trying to make what I’m doing relevant to the backgrounds of my students.

      Aryanna Trejo (07:28):

      Sure.

      Eric Cross (07:28):

      So I’m teaching biology, and I’m trying to make this kind of connection. Sometimes it’s more organic; sometimes it feels kind of forced. Because it’s just not always a nice fit. But it sounds like Code.org is really about inclusion. And in the numbers that I’ve seen for representation, in especially computer science software engineers, the groups that you’re focusing on are not necessarily represented in the professional workforce. At least disproportionately.

      Aryanna Trejo (07:54):

      Yeah, absolutely. Yeah, that’s correct.

      Eric Cross (07:57):

      And so how do you go about being intentional about reaching groups that we don’t see in, you know, the Silicon Valley software engineers? How do you start that? Like, at a young age, do you look for specific schools in specific areas to say, “We are going to bring this to the school. We’re going out to these populations of the cities”? Because we’re just not seeing…you know, on the map, we’re not seeing anybody really doing anything with coding here. Or we’re not seeing the numbers come out of these areas, out of these cities, of students who are going into STEM or going into computer science fields.

      Aryanna Trejo (08:41):

      Yeah. I don’t necessarily work on the recruitment side of it, is the issue, in my position. But I do work on the professional learning, that is brought out to teachers. And we have a huge focus on equity throughout the workshops that we create from K–12. It’s something we’re really passionate about. We definitely aim to prepare teachers to teach computer science. That’s a huge part of it. Knowing the content, but also thinking through, “What does recruitment look like at your school to make sure that the demographics of your classroom match the demographics of your entire school?” Also, thinking through, “How can we make sure that female students feel included in your classroom? How can we make sure that we are, giving students creativity to think about, or we are setting students up to be creative and think about the problems that are in their community, and how they can use computer science to solve them, or at least work towards them?”

      Eric Cross (09:39):

      So solving real-world problems and that inclusion aspect…are there things like…you were saying “female or students who identify as female”…are there things that teachers can do to ensure that they’re being more inclusive? Or to recruit, or encourage more female students to take part? One of the things I was thinking of, that I’ve seen, is I’ve seen coding kind of camps.

      Aryanna Trejo (10:06):

      Sure.

      Eric Cross (10:08):

      That were specifically for a female audience. And that seemed to help with recruitment. Is that something that you see on your side?

      Aryanna Trejo (10:16):

      That’s not something that we set up, no. But the curriculum that I work with is CS Principles. And it’s offered as an Advanced Placement course, as well as an AP class. So that’s a curriculum that’s designed for students who are in grades 10 through 12. And so at that point, we can really talk to teachers and ask them what the recruitment strategy is. But in terms of strategies that teachers can use to recruit those students…I mean, I’ve heard over and over from lots of different teachers who identify as female that they didn’t think that computer science was for them, until they saw a role model in that position. And so just being a role model for those students is really wonderful.

      Eric Cross (11:00):

      And I see it too, with—like, we do “Draw a Scientist” activity, which is like a popular science thing—

      Aryanna Trejo (11:05):

      Sure, yeah, I’m familiar.

      Eric Cross (11:05):

      But it’s the same thing, right? Like, it fleshes out. My students don’t draw themselves as scientists. They draw what they perceive, based on what television says. I imagine with computer science, it’s probably really similar, when you think about “What’s a software engineer look like?” Do students tend to draw themselves? Or is it even a mystery? Because I don’t even know what a software engineer looks like.

      Aryanna Trejo (11:28):

      Yeah, absolutely. Well, one of the things we love to do with our professional learning workshops is talk about understanding yourself, your identities, how they show up in the classroom as biases. And, you know, things like stereotype threat. We see that as really important to understand, and think through, and consider, before you step into the classroom. So that you’re not, you know, coddling certain groups of students because you don’t believe that they are able to be successful in computer science. Holding all the students to the same expectations and believing that they can succeed. And computer science, I think a lot of the times people have this conception of it being this utopian, bias-less, technocratic field. When in reality, everything has bias. And people talk about algorithmic bias and facial recognition, but also the people who created computers and computer languages have their own bias that comes through. And I think it’s really important to show students that. So that they can, one, know what they’re working with, and two, make sure that they can create products that reduce that bias.

      Eric Cross (12:50):

      It’s like…it’s not objective, just because we’re creating software. Like, once it gets to a point of being so sophisticated…I think, like, AI software, right? With facial recognition? And we’re seeing more and more articles come out about, you know, predicting trends based on historical data.

      Aryanna Trejo (13:12):

      Sure.

      Eric Cross (13:13):

      But then, the trends and things that they’re seeing tend to target things that have happened in the past. But it also doesn’t take into consideration a lot of other factors that can lead to certain groups or populations being identified. And I’ve seen some articles lately about how your code is really just representation of what you put into it. And like you just said, your bias—if you have that, conscious or unconscious—you’re gonna put that into your code. And the input is gonna be an impact, is gonna impact the output.

      Aryanna Trejo (13:44):

      Yeah, absolutely. Or even just—and I’m ashamed to say this, ’cause this is an idea that came to me just recently, through an article that I read—but computers themselves have bias. The hardware assumes that you have vision, that you can see the screen, that you are able-bodied, that you can use your hands to work the keyboard, the mouse, et cetera, and that you don’t have to use assistive technology. You know, there are small things like that, where we think that technology, like I said, is this utopian, futuristic science…but there are biases throughout.

      Eric Cross (14:19):

      You’re absolutely right. I’ve never even—I’ve never even considered that. Even though I do use assistive tech, and figure it out, I’ve never thought from the ground up, the process is built for an able-bodied, sighted, hearing person.

      Aryanna Trejo (14:31):

      Exactly.

      Eric Cross (14:32):

      To be able to engage with the hardware. And then these other things, these tertiary things that we kind of add on, so that you can do this, but it’s not designed from the ground up for people who are, you know, different audiences, physically. So I’m glad you brought that up, though. Now I’ve seen—and I haven’t done this—but I know Hour of Code is a big thing. And this is something that’s ongoing. Can you talk a little bit about what Hour of Code is? I know it’s, it’s a big thing for the classroom teachers.

      Aryanna Trejo (15:08):

      Yeah. So Hour of Code is really exciting, and it’s just blossomed from something small to something tremendous. This year is gonna be the 10th Hour of Code. So what it is, is it happens during CS Education Week in December, during Grace Hopper’s—or to honor Grace Hopper’s birthday. She was a computer scientist and Navy Admiral. And basically the aim of it is to get as many students on the computer doing an hour of code, and demystify what coding is. You know, to do seed-planting. To show teachers that this is something that you can facilitate for your students. And also to show students like, “Hey, computer science is something you can absolutely do. Not just for an hour, but more if you want.” So, yeah. Now it’s worldwide, and it’s really exciting.

      Eric Cross (15:58):

      That’s awesome. And I think about teachers and I still hear the apologetic—when I’m helping teachers in the classroom with education technology—the self-deprecating “I’m a dinosaur; I’m not good with tech,” which is never true. Like, they’re better than they even realize. And I feel like sometimes there’s still a stigma, too. It’s like <laugh> The Simpsons’ Comic Book Store Guy. The condescending tech support person—

      Aryanna Trejo (16:27):

      Sure.

      Eric Cross (16:28):

      —who has that tone. And so I feel like some people have been so negatively impacted by that person. So I know when I’m helping people, I actually try to go full-spectrum the other side. But I’m thinking about teachers’ barrier to entry. Sometimes code is like, “Whoa.” And I don’t teach computer science. Do you see those barriers to entry, or at least the perception of them? And then, what’s the reality for like someone listening, and going, “I’m a fourth grade teacher,” or “I’m a humanities teacher in ninth grade.” What’s the perception that you see, versus reality, with the teachers that you train? Is it much more accessible than we think? Or is there a level of sophistication that you have to have coming into it?

      Aryanna Trejo (17:10):

      No, not at all. I know computer science, and that says a lot! <Laugh> You know, I know my own corner of computer science. And you know, that’s me being self-deprecating, too. But I think learning computer science has helped me in so many different ways that I wasn’t expecting. I recently took the GRE in hopes of, you know, getting back into grad school. And I think just the way that computer science teaches you to search for bugs in your code, or errors, and kind of tirelessly look at a problem from multiple different angles, I was able to carry that into the math that I was doing. And I noticed just a huge difference in the way that I approached it, and the way that I was open to it. But you asked a great question, in regards to the barriers to technology. In my position at 9 Dots, I was working directly with teachers to lead professional development with them. Sometimes it would be a full day; sometimes it would be an hour after school. And the one thing that I always had in my back pocket that was really useful is that I would hear teachers saying things like, “Well, I just can’t do coding; this is too hard for me; the time has passed.” And I would ask them, “Would you say that to your student about math or English?” And they would always sheepishly go, “No.” And I’d say, “Well, be as kind to yourself as you would be to your student.” You know, it takes some patience and nobody’s gonna get it perfect 100 percent of the time. Have I banged my head against the wall trying to solve one tiny little syntax error in my code? Absolutely! But it feels absolutely phenomenal to fix that. And I was an English major in undergrad, and I had never done computer science before. So it’s something that becomes really satisfying.

      Eric Cross (19:07):

      Yeah, I imagine. I had someone—a trainer or a presenter—one time bring up the fact that our students rarely get to see us learn in real time.

      Aryanna Trejo (19:19):

      Yeah.

      Eric Cross (19:19):

      So we don’t get to ever really model failure. I mean, unless we’re in a classroom situation <laughs> in our failures, with classroom management. Then they see it, they see it! But they don’t get to see us model learning failure. And I don’t mean like failure—and yes, I know, “first attempt is learning,” and “no such thing as failure”—that’s not what I’m talking about. But just when we’re not successful with our code, and then we experience real-time frustration.

      Aryanna Trejo (19:42):

      Yep.

      Eric Cross (19:42):

      And they said that is actually a great learning experience for your students to watch you go through productive struggle. And that was really liberating for me. Because now I’m in the classroom, and I’m trying to go through it with my students, and the beautiful thing was, they started helping me. We were all trying to solve the problem. And then we had this authentic problem-solving experience. I think it was like a Scratch program, where we were trying to solve, trying to embed it somewhere, or something. And then, in the background of the class: “Mr. Cross! I got it! I figured it out!” And it was this really neat bonding experience. And I felt that—your ears get red, and you get hot, ’cause you’re not—

      Aryanna Trejo (20:19):

      Oh yeah.

      Eric Cross (20:20):

      You don’t know it! And you’re in front of 36 kids! And I said, “OK, I need to tell them how I feel.”

      Aryanna Trejo (20:25):

      Yeah.

      Eric Cross (20:26):

      So I said, “Now I feel really frustrated.” Like, “I want to go through this, and here’s my thoughts.” ‘Cause I knew that it would be helpful if they saw and would hear my thoughts. So I just did a quick think-aloud and I said, “In my head, <laugh> I want to just quit,” I said, “But I realize that this is the part where my learning’s happening. So I just want you all to hear what’s going on in my brain.” And now I feel like when I’m doing coding with my students, and it’s just basic coding, I feel much more comfortable, like, not knowing. But I needed someone to release me from that “I have to be the expert in everything” to do it.

      Aryanna Trejo (21:06):

      And teachers are used to being the experts. Right? And they should be. And coding is just such a different landscape. But I think once you kind of give over to the power of tinkering, I think it’s really gratifying. I love being able to…you can revise a sentence, and then read your paragraph back to yourself in English, and say, “OK, I get it.” But there’s something so gratifying about changing a line of code or a block and then being able to hit play and watch your program come to life, and say, “Hmm, that’s not quite what I wanted. Let’s try something different.”

      Eric Cross (21:39):

      I love your connection to tinkering. ‘Cause—I had never thought about it—’cause I love tinkering with my hands. But I always think about physical things. But coding is exactly that. It’s tinkering.

      Aryanna Trejo (21:47):

      It’s exactly that.

      Eric Cross (21:47):

      That’s exactly what it is.

      Aryanna Trejo (21:49):

      And a lot of it is, for me, especially when I’m trying something new, it’s guess-and-check. It’s like, “OK, that didn’t work. What if I add a semicolon here? Will it finally work? Or what if I add a ‘for’ loop? Will this get me what I want?” And it’s wonderful because you have that with students as well. Like, you have that record of their thinking, and you can ask them to go step-by-step and tell you, you know, “First, I added this, because I wanted the program to do this,” and so on and so forth. And so you have that record, but you can always get rid of it. Students often wanna get completely get rid of it. That’s something that I’ve noticed a lot as I’ve taught computer science. But, once you can get them to target the specific parts of the program, tinker with that, and continue, that’s a really wonderful learning space. There was also something you said about modeling failure. I love the fact that in computer science you can model failure for your students. You said to your students, “I’m getting frustrated.” I love that, because I never got that in math. Nobody ever showed me what it was like to be frustrated with graphing a parabola. Right? Like, my math teachers were always like, “Doot, doot, doot, here you go, you’re done!” <Laugh> And I would get so frustrated, because it didn’t come that easily to me. And I think there’s two parts to that. So there’s modeling the learning and the thinking and the productive struggle, but also there’s the identity of being a computer scientist and modeling what that looks like. So for me, when I get really frustrated with a program, I walk away. I take five minutes. I take a deep breath. I say, “I’m not gonna think about it in these five minutes.” And I come back to it. And I think once you start teaching computer science, you can facilitate that for students. And there’s so many different strategies that they can pick up. They can pick up rubber ducking, which is where they pick up a rubber duck or a similar object, and they talk to it as if they were a partner and talk through their code. And oftentimes, as you’re rubber ducking, you’re gonna find that error, because you’re explaining it to someone who’s a stand-in for a novice. And rubber ducking is a well-known strategy for computer scientists who make it their career. You know, there’s pair programming. Some students love pair programming; some students hate it. But the students start to build this identity about how they problem-solve. And how they approach failure. And I just love that.

      Eric Cross (24:31):

      I’m writing this down. Because the rubber-ducking strategy, I love. I just imagine my seventh graders, a bunch of 13-year-olds with, like, rubber on the desk. And not necessarily in coding, but I was thinking in my science class. And they’re working through a challenge, and they’re all looking at this duck, and they’re talking to it. But I just love the the idea of externalizing your thought process and talking through it yourself so that you can hopefully arrive at a conclusion. But it’s such a great practice, and this is something that’s been around for a long time, apparently. So.

      Aryanna Trejo (24:59):

      Yeah. Yeah. It’s a real thing. And you know, you can go low-fi. It doesn’t have to be a rubber duck. You can have students talk to their pencils or their imaginary friends. That’s not the issue; the issue is, you know, talking to somebody.

      Eric Cross (25:10):

      I know you support teachers. But I just wanted to…I was just curious about your typical day, what that’s like. And then what you do, how you support ’em.

      Aryanna Trejo (25:15):

      So, at my previous job at 9 Dots, I was in there with the teachers in the classrooms. I was coaching our internal staff who went out to co-teach with teachers. And I loved that. And I had such a great impact on a local scale. But now at Code.org, I have a much broader impact. But I don’t get to interface with—that’s such a tech-y word!—I don’t get to interact with—

      Eric Cross (25:42):

      You work at Code.org! You get to—

      Aryanna Trejo (25:42):

      I know! But I’m a teacher at heart, forever, right? That’s my identity that I forged when I was 22 years old. And a typical day looks like opening up my computer, taking a look at my calendar. I often have meetings to talk about, different things that we’re doing to support our facilitators who go out to our teachers and lead their workshops for them. I recently worked on a product that was designed for CS principles, teachers, to onboard to the course if they weren’t able to get into an in-person workshop. And it’s completely self-paced, so it gives teachers an on-ramp into the course. And now I’m working on some in-person workshop agendas. So I feel really wonderful that my work is going out to thousands of teachers. But at the same time, I really, really miss talking to teachers. Because that’s something that energizes me so much.

      Eric Cross (26:46):

      When should students start learning computer science? I feel like we see it in this kind of narrow lane. Like, this is computer science if you make an app. Can it be more than that? As far as like the benefit of computer science? And—I guess two-part question—when should students, one, start being exposed to it? And then two, what are some of the benefits beyond just, “I wanna just make an app”?

      Aryanna Trejo (27:08):

      I taught coding to kindergartners. It can start as early as you as you want it to. And it doesn’t necessarily need to be on the computer. A lot of students that I worked with didn’t have computers at home, were interacting with computers for the first time. And that’s a huge barrier, of course, to a lot of teachers. But there are so many unplugged lessons that you can do to start to start to have students think about algorithms, which is just a series of steps to complete to solve a problem. As long as a student can use a computer, I think they can do computer science. There are products out there like codeSpark, where students—and Code.org has these products too—where students are moving an avatar around a board, kind of like a quadrant to…you know, they feed the directions to a computer and then the computer enacts it for them. And with that, they can learn algorithms. You know, that is computer science. And a lot of people don’t see it that way, but it really is. And it starts to set students up for more complex thinking as they move on.

      Eric Cross (28:13):

      One of the biggest underserved communities, geographically, are students in rural areas.

      Aryanna Trejo (28:20):

      Yep.

      Eric Cross (28:21):

      They can be reservations; they can be places just not an urban area. Is there a way to serve our communities of students and bring these skills in an unplugged way?

      Aryanna Trejo (28:32):

      Yeah. Yeah. If you typed in “unplugged computer science lessons” to Google, you’ll have a ton of hits. And there are so many students out there—not just in rural areas. But there’s incarcerated students. It hurts my heart to even say those words, but in urban areas too. Like in my classroom, where I only had four desktop computers. Access is a real struggle. And there’s things, like I said, instead of moving an avatar around a grid on the computer, I used to have an actual mat that I would take out to my kindergarten classrooms, lay it out, and it would have a grid on it. And we’d have one of the students act as the avatar and the rest of the students would give them directions to get to a different point on the grid. And there, you’re building an algorithm or just a series of steps. Like I said, it’s not some fancy term to solve a problem. And there’s multiple ways to solve that problem, too. And I think investigating that can be a really good way to stretch those lessons.

      Eric Cross (29:32):

      It almost sounds like an oxymoron, but this low-tech computer science strategy. Develop these skills and then transfer that once you have access to the tools.

      Aryanna Trejo (29:39):

      Yeah. Yeah. Absolutely. And I think it’s a good way for students who need kinesthetic means to start to understand something, or just different learning styles, to start transferring that over.

      Eric Cross (29:53):

      I probably have students in the classroom where those kinesthetic moving things would help be a great way—or WILL be a great way—for them to learn the principles and the fundamentals of coding. Instead of only giving the option to just do the computer, actually giving them some choice. Or giving them a way to be able to manipulate things. We’re still in the system of education that’s still very siloed. It’s been the same way for a hundred years. We got math and then we got science and we got English. I’m wondering, how can a teacher fit this into their daily lessons? And then, do you have any experiences or stories or things that you’ve seen, just really creative ways that you’ve seen teachers incorporate this? Outside the norm of, “This is a computer science class; we’re just gonna code.” But have you seen it branch out? In the trainings that you’ve done?

      Aryanna Trejo (30:40):

      I’ve seen examples of that. I’ve seen a teacher use Scratch to demonstrate different climates of California, and show the different climates. This past year for Hour of Code, my friend Amy—the one who helped me move to 9 Dots and at Code.org—she created this incredible tutorial called Poetry Bot. And it was a way to get students to match the mood of the poem to some of the elements that were happening in the stage. So they would have different backgrounds show up at different parts of the poem. When the words would show up, they would have different sprites show up. They would have, sometimes, sounds. Or the text would show up with different animations. So there are cross-curricular opportunities everywhere, if you can be creative enough to find them, or if you beg, borrow, steal from other educators who are doing this incredible work out there.

      Eric Cross (31:36):

      Yeah. I say this all the time, but I’m an educational DJ, not an MC.

      Aryanna Trejo (31:44):

      Oh yeah.

      Eric Cross (31:45):

      So MCs write their lyrics and DJs remix with things that other people have done.

      Aryanna Trejo (31:48):

      Absolutely.

      Eric Cross (31:48):

      I was like, I’m a DJ. I was like, all day. Sometimes I’ll write a lyric, once or twice, but most of the time I’m remixing things. So teachers, if you’ve been out there and you got an awesome interdisciplinary thing, or you’ve incorporated coding and it’s something that’s traditionally not seen, please send it to us. Share it with us.

      Aryanna Trejo (32:03):

      Yeah. And there are so many different places where you can find that. We have a forum for Code.org, but there’s also CSTA, the Computer Science Teachers Association. You can join your local chapter and get to know other computer science teachers out there.

      Eric Cross (32:19):

      I guess…to wrap up, I’ve been using Scratch programming, the MIT website. My students do the basic animated name, CS First, stuff. But over the years, I’ve noticed that my students are coming in with a higher level of sophistication in Scratch to where now the differentiation…some of my students are just doing very basic…and then I have other students who’ve created full-on video games with complex…like, you look at their Scratch page and it’s just an amazing amount of blocks and integrations and things that they have. Is there anything on Code.org that could be a next step? That takes them beyond, maybe like the visuals? And if so, what would be a good next step, to take students to advance them to another platform? There’s so many coding languages out there, I feel like. Or I might not even be thinking about that the right way.

      Aryanna Trejo (33:20):

      No, I think you are. You know, we have three different curricula out on our website right now. We have CS Fundamentals, which is probably more in line with what you’re talking about. We have a free CS Discoveries curriculum, and that is designed for, grades, I believe, 6 through 10. And that would be a really good entry point, for both teachers and for students.

      Eric Cross (33:44):

      There’s a lot of new stuff that I hadn’t seen yet, a few years ago.

      Aryanna Trejo (33:49):

      Yeah.

      Eric Cross (33:49):

      So I was really excited.

      Aryanna Trejo (33:50):

      One thing that I do know is that CS Discovery has just added an artificial intelligence slash machine-learning unit, that you can just pick up and give to your students. You don’t have to go in order with CS Discoveries, like you do with CS Principles. And I’ve gone through some of those lessons. They are really rad. And I would’ve loved to have learned that when I was in middle school or high school. So yeah, we’re constantly thinking of how we can make things one, relevant to our students, and two relevant to what’s going on in the world.

      Eric Cross (34:20):

      So would I be overselling it if I said, “If you go through this, you’ll be able to create an AI or a neural net to do all your homework”?

      Aryanna Trejo (34:26):

      You would be overselling it.

      Eric Cross (34:27):

      I would be? OK. So what I’ll do is, I’ll wait until the end of the school year, and then introduce it, and then by the time they’ve realized it’s not true, they’ll be eighth graders.

      Aryanna Trejo (34:35):

      There you go. Good old bait-and-switch.

      Eric Cross (34:37):

      You’re amazing. Thank you for serving teachers, and for being part of such a great organization that puts out great stuff. So much free curricula for teachers to be able to use. Especially nowadays we hunt and scour the internet for those types of things. And to be able to bring computer literacy into the classroom, and with your focus of serving communities of underrepresented groups, it feels good to know that not only is it high-quality material, but it’s also trying to raise everyone up. Because ultimately when we have more people trying to solve a common problem, we come up with better solutions. And I was talking to somebody who was a materials engineer somewhere in Europe, and he said one of the things about the U.S., As he was critiquing me on this flight, critiquing the U.S., He said, “One of the things about your country is that you have a heterogeneous group of people who, in a group, when you have multiple perspectives attacking a problem, you come up with more novel solutions.” He says, “That’s one of the great things, is that there’s not necessarily just a hive mind.” And I think that that’s one of the great things. We uplift different communities, and we uplift women, people of color, people who, have backgrounds that parents didn’t go to college but have these amazing qualities and strengths. And we put everybody focusing on the same issue. We come up with novel solutions that we wouldn’t have come up with if only select groups were trying to look at it and solve it. And so—.

      Aryanna Trejo (36:22):

      Yeah.

      Eric Cross (36:23):

      And we couldn’t do that without organizations like yours, that help empower teachers. So.

      Aryanna Trejo (36:27):

      Yeah! You really said it.

      Eric Cross (36:29):

      You’re coming to my classroom when you’re back in San Diego?

      Aryanna Trejo (36:31):

      Yeah! I totally will. Yeah. Let’s make it happen.

      Eric Cross (36:34):

      Last question. If you think back in your schooling, your own schooling, K through college, is there a person or a teacher that had a big impact on you? Or a learning experience that had an impact on you? And it could be, you know, positive or negative. But something that impacted you, even to this day, that stands out to you, that you remember?

      Aryanna Trejo (36:56):

      This is a big diversion from the topics that we’re talking about. But in grades 10 through 12, my drama teacher, Mr. Byler, who I still talk with, was such a huge impression on me. Really wonderful. And I couldn’t tell you the teaching moves that he did that were wonderful. I don’t know much about his management. But I can tell you that he gave me space to be confident, and grow into myself, through drama productions. They were high school productions, so they weren’t amazing. But I just really came into myself in high school, because I had the confidence to get on stage. And he was just such a wonderful mentor to all of us. So, props to Mr. Byler.

      Eric Cross (37:39):

      Shout out to Mr. Byler for creating space for Aryanna to fly! Thanks for making time, after your workday, to talk with us and to share Code.org with teachers.

      Aryanna Trejo (37:54):

      Of course. Happy to.

      Eric Cross (37:59):

      Thanks so much for joining me and Aryanna today. We want to hear more about you. If you have any great lessons or ways to keep student engagement high, please email us at stem@amplify.com. Make sure to click subscribe wherever you listen to podcasts. And join our brand new Facebook group, Science Connections: The Community for some extra content.

      Stay connected!

      Join our community and get new episodes every other Tuesday!

      We’ll also share new and exciting free resources for your classroom every month.

      What Aryanna Trejo says about science

      “I would hear teachers saying things like, ‘Well I just can’t do coding, it’s just too hard for me.’ And I would ask them…Would you say that to your student about math or English? Be as kind to yourself as you would be to your student.”

      – Aryanna Trejo

      Professional Learning Specialist, Code.org

      Meet the guest

      Aryanna is a member of the Code.org Professional Learning Team. Before joining Code.org, Aryanna led computer science professional development for K-6 teachers and served as an instructional coach for new educators. She also taught fourth and fifth grade in New York City and Los Angeles. In her spare time, Aryanna loves taking advantage of the California sunshine, creating wheel-thrown pottery, and hanging out with her dog Lola.

      Person with curly hair smiling, standing in front of a brick wall. Circular frame with decorative star in the corner.

      About Science Connections

      Welcome to Science Connections! Science is changing before our eyes, now more than ever. So…how do we help kids figure that out? We will bring on educators, scientists, and more to discuss the importance of high-quality science instruction. In this episode, hear from our host Eric Cross about his work engaging students as a K-8 science teacher. Listen here!

      You might also like:

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      Coding Science Internship

      Integrate coding into your science classroom with Amplify Science’s brand-new Co…

      Two students collaborate on schoolwork at a table, with a laptop and a notebook. Other students are focused on their own tasks in the background.

      Earn CE Credit! Free Coding Webinar

      Integrating Code-to-Learn Experiences in Middle School Science Classrooms

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      Math Teacher Lounge

      Looking for ways to support students in problem-solving? Check out the Amplify’s…

      A closer look at grades 6–8

      Amplify Science is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

      In the 6–8 classroom, this looks like students:

      • Collecting evidence from a variety of sources.
      • Making sense of evidence in a variety of ways.
      • Formulating convincing scientific arguments.

      Is your school implementing the domain model? Click here.

      Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
      A four-step process diagram: Spark intrigue, Explore evidence, Explain and elaborate, and Evaluate claims, connected by arrows, with an engagement statement below.

      Program structure

      Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

      It’s this proven program structure and lesson design that enables Amplify Science to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the NGSS in fewer lessons than other programs.

      Scope and sequence

      Every year our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45-minutes, though teachers can expand or contract the timing to meet their needs.

      A grid of educational icons, each representing a different science topic, such as earth and space science, life science, and physical science, with titles and lesson counts.

      Unit types

      Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

      In grades 6–8, there are three types of units:

      • One unit is a launch unit.
      • Three units are core units.
      • Two units are engineering internships.
      Launch units

      Launch units are the first units taught in each year of Amplify Science. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

      Core units

      Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

      Engineering Internship units

      Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

      Units at a glance

      Abstract digital artwork featuring a yellow human figure, red shapes, and a blue-toned screen, with vibrant, multicolored patterns and textures in the background.
      Microbiome

      Domain: Life Science

      Unit type: Launch

      Student role: Microbiological researchers

      Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.  

      An abstract illustration of a person receiving an oral examination, with colorful geometric shapes and an eye chart in the background.
      Metabolism

      Domain: Life Science

      Unit type: Core

      Student role: Medical researchers

      Phenomenon: Elisa, a young patient, feels tired all the time.  

      Abstract orange background with geometric shapes, featuring icons of a vest, bar chart, leaf, beaker, fruit, medical stethoscope, and an envelope within a hexagonal frame.
      Metabolism Engineering Internship

      Domains: Life Science, Engineering Design

      Unit type: Engineering internship

      Student role: Food engineers

      Phenomenon: Designing health bars with different molecular compositions can effectively meet the metabolic needs of patients or rescue workers.  

      Six spiders with varying body colors (brown, yellow, blue, and red) and patterns are arranged on a dark, textured background, seemingly in a diagram or chart formation.
      Traits and Reproduction

      Domain: Life Science

      Unit type: Core

      Student role: Biomedical students

      Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.  

      Illustration of a person with closed eyes in a red winter coat and hat, surrounded by falling snow and orange circles on a dark background.
      Thermal Energy

      Domain: Physical Science

      Unit type: Core

      Student role: Thermal scientists

      Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school. 

      Abstract illustration of a sun with blue and orange rays over a colorful landscape featuring green hills and a vibrant sky.
      Ocean, Atmosphere, and Climate

      Domains: Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Climatologists

      Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.  

      Illustration of clouds above a small town and farmland, with wind currents depicted swirling through the landscape under a blue sky.
      Weather Patterns

      Domains: Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Forensic meteorologists

      Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.  

      A polar bear stands on a small floating ice sheet in the ocean, surrounded by melting ice, with a red sun in the sky.
      Earth’s Changing Climate

      Domains: Earth and Space Science, Life Science

      Unit type: Core

      Student role: Climatologists

      Phenomenon: The ice on Earth’s surface is melting.  

      A purple hexagonal graphic with icons including a building, wrench, screwdriver, sun, molecules, paint bucket, and tiles on a geometric patterned background.
      Earth’s Changing Climate Engineering Internship

      Domains: Earth and Space Science, Engineering Design

      Unit type: Engineering internship

      Student role: Civil engineers

      Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.  

      A robotic rover sits on a hill in a rocky, reddish landscape, with visible tracks in the dust leading to its current position under a hazy sky.
      Geology on Mars

      Domain: Earth and Space Science

      Unit type: Launch

      Student role: Planetary geologists

      Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable. 

      Two green prehistoric reptiles with long snouts are near the shore; one is on land while the other swims in blue water, with plants, rocks, and an island in the background.
      Plate Motion

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Geologists

      Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.  

      A purple geometric background featuring a hexagonal badge with a telescope, mountain, audio wave, and star symbols inside.
      Plate Motion Engineering Internship

      Domains: Earth and Space Science, Engineering Design

      Unit type: Engineering internship

      Student role: Mechanical engineering interns

      Phenomenon: Patterns in earthquake data can be used to design an effective tsunami warning system.  

      Illustration showing an ocean, forest, and mountains with a smoking volcano, plus a cross-section of underground tectonic plates.
      Rock Transformations

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Geologists

      Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.  

      Four stages of an orange popsicle melting on a stick, from fully frozen on the left to completely melted on the right, against a plain background.
      Phase Change

      Domains: Physical Science, Earth and Space Science

      Unit type: Core

      Student role: Chemists

      Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart

      Green geometric background with an outlined hexagon containing icons: a parachute, ruler, letter "A," bandage, stacked blocks, and a folded corner paper.
      Force and Motion Engineering Internship

      Domains: Engineering Design, Physical Science

      Unit type: Engineering internship

      Student role: Chemical engineering interns

      Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature. Domains: Engineering Design, Physical Science

      Abstract illustration showing red and blue circles on a split blue and light background, representing molecular movement across a membrane or barrier.
      Chemical Reactions

      Domains: Physical Science, Life Science, Earth and Space Science

      Unit type: Core

      Student role: Forensic chemists

      Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.  

      An underwater scene with a large whale surrounded by turtles, jellyfish, and various fish swimming in different directions.
      Populations and Resources

      Domains: Life Science, Earth and Space Science

      Unit type: Core

      Student role: Biologists

      Phenomenon: The size of the moon jelly population in Glacier Sea has increased. 

      Low-poly digital illustration of a fox hunting a rabbit in a forest with pine trees, mushrooms, mountains, and the sun in the background. Another rabbit sits near the trees.
      Matter and Energy in Ecosystems

      Domains: Life Science, Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Ecologists

      Phenomenon: The biodome ecosystem has collapsed.  

      Two people climb over rocks filled with electronic devices; inset illustrations show a boot, a belt of batteries, and a radio.
      Harnessing Human Energy

      Domains: Physical Science, Earth and Space Science, Engineering Design

      Unit type: Launch

      Student role: Energy scientists

      Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.  

      A spacecraft approaches and docks with a modular space station featuring large blue solar panels, set against a black space background.
      Force and Motion

      Domain: Physical Science

      Unit type: Core

      Student role: Physicists

      Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.

      Green graphic with hexagonal emblem showing an infant, a thermometer, layered materials, a medical symbol, and a flame icon.
      Force and Motion Engineering Internship

      Domains: Engineering Design, Physical Science

      Unit type: Engineering internship

      Student role: Chemical engineering interns

      Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents.

      Illustration of a roller coaster car with passengers raising their arms as they descend a steep track against a blue sky with clouds.
      Magnetic Fields

      Domain: Physical Science

      Unit type: Core

      Student role: Physicists

      Phenomenon: During a test launch, a spacecraft traveled much faster than expected.  

      Illustration of the Earth with arrows representing radiation or energy entering the atmosphere from space, focused on the Asia-Pacific region.
      Light Waves

      Domains: Physical Science, Life Science, Earth and Space Science

      Unit type: Core

      Student role: Spectroscopists

      Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.

      A city skyline at night with illuminated windows, a large full moon, stars in the sky, and a bridge visible on the left side.
      Earth, Moon, and Sun

      Domains: Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Astronomers

      Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.  

      Four polygonal dinosaurs walking in a row, three green and one yellow, each with a rock and purple spikes on their backs, set against a grassy background with a blue sky.
      Natural Selection

      Domains: Life Science, Earth and Space Science

      Unit type: Core

      Student role: Biologists

      Phenomenon: The newt population in Oregon State Park has become more poisonous over time.  

      Red geometric background featuring a hexagonal emblem with icons of a world map, mosquito, DNA strand, bar chart, and interconnected blocks.
      Natural Selection Engineering Internship

      Domains: Engineering Design, Life Science

      Unit type: Engineering internship

      Student role: Clinical engineers

      Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development while helping malaria patients.  

      Two tortoises with long necks are by a river; one is browsing leaves from a bush while the other is walking near the water's edge.
      Evolutionary History

      Domains: Life Science, Earth and Space Science

      Unit type: Core

      Student role: Paleontologists

      Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.    

      Resources

      Pilot support brochure for 6–8 (Integrated)

      Unit phenomena for 6–8

      Take a closer look at the unit phenomena featured in each grade level.

      Classroom Slides for 6–8

      Your new hands-free TG is coming soon! These PowerPoints for every lesson make t…

      What’s so phenomenal about phenomena?

      Learn actionable strategies that will help you implement 3-D teaching and learni…

      Active reading in 6–8

      Scientists read and write with purpose too.

      Investigations for 6–8

      Explore the types of investigations that take place in middle school classrooms….

      A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

      Sims for 4–8

      Approaches to assessment in 6–8

      Learn about our middle school embedded assessments.

      A closer look at grades 6–8

      Amplify Science California is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

      In the 6–8 classroom, this looks like students:

      • Collecting evidence from a variety of sources.
      • Making sense of evidence in a variety of ways.
      • Formulating convincing scientific arguments.

      Is your school implementing the domain model? Click here.

      Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
      A four-step process diagram with icons: spark a real-world problem, explore sources, explain and elaborate, and evaluate claims, all linking to engage with cohesive storylines.

      Program structure

      Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

      It’s this proven program structure and lesson design that enables Amplify Science California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the California NGSS in fewer lessons than other programs.

      Scope and sequence

      Every year our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45-minutes, though teachers can expand or contract the timing to meet their needs.

      Chart displaying educational science topics for grades 6 to 8, categorized by grade level, duration in days, and number of classes. Includes subjects like microbiome, geology, and natural selection.

      Unit types

      Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

      In grades 6–8, there are three types of units:

      • One unit is a launch unit.
      • Three units are core units.
      • Two units are engineering internships.
      Launch units

      Launch units are the first units taught in each year of Amplify Science California. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

      Core units

      Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

      Engineering Internship units

      Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

      Units at a glance

      Abstract art with vibrant colors featuring a yellow silhouette of a person holding a book against a background of geometric shapes, swirling patterns, and bold textures.
      Microbiome

      Domain: Life Science

      Unit type: Launch

      Student role: Microbiological researchers

      Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.  

      Abstract artwork of a person's side profile with geometric shapes and colorful patterns flowing from the head, holding a small sledgehammer. A vision chart is visible in the corner.
      Metabolism

      Domain: Life Science

      Unit type: Core

      Student role: Medical researchers

      Phenomenon: Elisa, a young patient, feels tired all the time.  

      Download unit guide

      Orange abstract background with hexagonal shapes featuring icons of a bar chart, plant, safety vest, test tube, peach, and stethoscope.
      Metabolism Engineering Internship

      Domains: Life Science, Engineering Design

      Unit type: Engineering internship

      Student role: Food engineers

      Phenomenon: Designing health bars with different molecular compositions can effectively meet the metabolic needs of patients or rescue workers.  

      Imagen que muestra un gráfico de arañas de diferentes colores con patrones distintos de patas y cuerpo, incluidas variaciones de color marrón, amarillo y azul. El fondo es una superficie oscura y texturizada.
      Traits and Reproduction

      Domain: Life Science

      Unit type: Core

      Student role: Biomedical students

      Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.  

      Download unit guide

      Illustration of a person in a red hat and fur-lined coat with eyes closed, surrounded by large orange circles on a dark background.
      Thermal Energy

      Domain: Physical Science

      Unit type: Core

      Student role: Thermal scientists

      Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school. 

      Download unit guide

      Abstract artwork depicting a bright sun with blue and orange swirling patterns next to green hills under a sky with shades of blue, orange, and red.
      Ocean, Atmosphere, and Climate

      Domains: Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Climatologists

      Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.  

      An illustration from the Weather Patterns unit
      Weather Patterns

      Domains: Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Forensic meteorologists

      Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.  

      Download unit guide

      An illustration from the Earth's Changing Climate unit
      Earth’s Changing Climate

      Domains: Earth and Space Science, Life Science

      Unit type: Core

      Student role: Climatologists

      Phenomenon: The ice on Earth’s surface is melting.  

      Download unit guide

      Abstract geometric design in shades of blue and purple featuring a hexagon with icons of a building, wrench, molecules, sun, paint can, and screwdriver.
      Earth’s Changing Climate Engineering Internship

      Domains: Earth and Space Science, Engineering Design

      Unit type: Engineering internship

      Student role: Civil engineers

      Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.  

      A barren, rocky desert landscape with rover tracks leading to a distant vehicle on a hill under a hazy sky.
      Geology on Mars

      Domain: Earth and Space Science

      Unit type: Launch

      Student role: Planetary geologists

      Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable. 

      Two prehistoric reptiles with long snouts and tails are near the shore, one on land and one in water, with plants, rocks, and an island in the background.
      Plate Motion

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Geologists

      Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.  

      Download unit guide

      Geometric design featuring a telescope, mountain, sound waves, and cosmic elements on a purple hexagonal background.
      Plate Motion Engineering Internship

      Domains: Earth and Space Science, Engineering Design

      Unit type: Engineering internship

      Student role: Mechanical engineering interns

      Phenomenon: Patterns in earthquake data can be used to design an effective tsunami warning system.  

      Illustration of a cross-section of Earth showing a volcano near the ocean. Trees, mountains, and clouds are visible above, with subterranean layers below.
      Rock Transformations

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Geologists

      Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.  

      Download unit guide

      Ilustración que muestra las etapas de fusión de una paleta de naranja: entera, parcialmente derretida, más derretida y casi derretida por completo, con palitos de madera, sobre un fondo morado.
      Phase Change

      Domains: Physical Science, Earth and Space Science

      Unit type: Core

      Student role: Chemists

      Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart

      Download unit guide

      Green geometric background with a hexagonal emblem containing a parachute icon, ruler, bandage, and stacked layers on a gradient pattern.
      Force and Motion Engineering Internship

      Domains: Engineering Design, Physical Science

      Unit type: Engineering internship

      Student role: Mechanical engineering interns

      Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents.  

      An illustration from the Chemical Reactions unit
      Chemical Reactions

      Domains: Physical Science, Life Science, Earth and Space Science

      Unit type: Core

      Student role: Forensic chemists

      Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.  

      Download unit guide

      An illustration of a whale with jellyfish and turtles from Amplify Science
      Populations and Resources

      Domains: Life Science, Earth and Space Science

      Unit type: Core

      Student role: Biologists

      Phenomenon: The size of the moon jelly population in Glacier Sea has increased. 

      Download unit guide

      Low-poly landscape with trees and mushrooms. A fox sniffs the ground, a rabbit sits nearby, and mountains and sun are in the background.
      Matter and Energy in Ecosystems

      Domains: Life Science, Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Ecologists

      Phenomenon: The biodome ecosystem has collapsed.  

      Download unit guide

      Two people climbing rocky terrain; illustrations show a hiking boot and a belt with gear.
      Harnessing Human Energy

      Domains: Physical Science, Earth and Space Science, Engineering Design

      Unit type: Launch

      Student role: Energy scientists

      Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.  

      Illustration of a futuristic space station with large solar panels, orbiting in deep space, emitting a blue glow from its propulsion system.
      Force and Motion

      Domain: Physical Science

      Unit type: Core

      Student role: Physicists

      Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.

      Download unit guide

      Green geometric graphic featuring icons: a baby, thermometer, layers, medical alert, and a flame.
      Phase Change Engineering Internship

      Domains: Engineering Design, Physical Science

      Unit type: Engineering internship

      Student role: Chemical engineering interns

      Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature.  

      Illustration of a roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.
      Magnetic Fields

      Domain: Physical Science

      Unit type: Core

      Student role: Physicists

      Phenomenon: During a test launch, a spacecraft traveled much faster than expected.  

      An illustration from the Light Waves unit
      Light Waves

      Domains: Physical Science, Life Science, Earth and Space Science

      Unit type: Core

      Student role: Spectroscopists

      Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.

      Download unit guide

      A city skyline at night with a prominent full moon, stars in the sky, and a bridge silhouette on the left.
      Earth, Moon, and Sun

      Domains: Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Astronomers

      Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.  

      Download unit guide

      Four low-poly dinosaurs with missing body sections are standing in a row; one is yellow, and the others are green. They have purple spikes and red patches on their bodies.
      Natural Selection

      Domains: Life Science, Earth and Space Science

      Unit type: Core

      Student role: Biologists

      Phenomenon: The newt population in Oregon State Park has become more poisonous over time.  

      Download unit guide

      Red geometric background with icons including a mosquito, DNA strand, bar chart, and world map inside a hexagon.
      Natural Selection Engineering Internship

      Domains: Engineering Design, Life Science

      Unit type: Engineering internship

      Student role: Clinical engineers

      Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development while helping malaria patients.  

      Two giant tortoises with long necks stand near water; one tortoise feeds on leaves from a tree while the other is near dense vegetation.
      Evolutionary History

      Domains: Life Science, Earth and Space Science

      Unit type: Core

      Student role: Paleontologists

      Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.    

      Download unit guide

      Resources

      Two middle school girls use a Student Investigation Notebook to take on the role of scientists and engineers

      Pilot support brochure for 6–8 (Integrated)

      See how we customized our instructional sequence to fully support the Utah SEEd…

      An illustration of a whale with jellyfish and turtles from Amplify Science

      Unit phenomena for 6–8

      Take a closer look at the unit phenomena featured in each grade level.

      A laptop screen displays a simulation about Earth's energy system, with surrounding images showing diagrams and energy flow models.

      Classroom Slides for 6–8

      Your new hands-free TG is coming soon! These PowerPoints for every lesson make t…

      A child wearing safety goggles closely examines an object through a magnifying glass in a classroom setting.

      What’s so phenomenal about phenomena?

      Learn actionable strategies that will help you implement 3-D teaching and learni…

      A student reviews a science textbook and looks at a laptop in a classroom, while other students work together on their science projects in the background.

      Active reading in 6–8

      Learn how we support students in learning how to interact with scientific texts….

      A young person wearing gloves looks through a microscope at a table with laboratory supplies, including bottles, slides, and a tray, against a plain blue background.

      Investigations for 6–8

      Explore the types of investigations that take place in middle school classrooms….

      A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

      Sims for 4–8

      Two students sit at desks writing in notebooks and using laptops in a classroom setting.

      Approaches to assessment in 6–8

      Learn about our middle school embedded assessments.

      A science education kit includes goggles, measuring cups, books on ecosystems and fuel burning, seeds, a jar, game pieces, and soil. Authored by The Lawrence Hall of Science.

      Program component list for 6–8 (Integrated)

      Explore the components that come with each unit.

      Welcome, Jordan K-8 reviewers!

      To view this protected page, enter the password below:



      A closer look at grades 6–8 (domain)

      Amplify Science California is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

      In the 6–8 classroom, this looks like students:

      • Collecting evidence from a variety of sources.
      • Making sense of evidence in a variety of ways.
      • Formulating convincing scientific arguments.

      Is your school implementing the integrated model? Click here.

      Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
      Graphic showing a research process with four steps: spark intrigue with a real-world problem, explore evidence, explain and elaborate, and evaluate claims, connected in a cycle with arrows.

      Program structure

      Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

      It’s this proven program structure and lesson design that enables Amplify Science California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the California NGSS in fewer lessons than other programs.

      Scope and sequence

      Every year of our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45 minutes, though teachers can expand or contract the timing to meet their needs.

      A grid of educational icons, each representing a different science topic, such as earth and space science, life science, and physical science, with titles and lesson counts.

      Unit types

      Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

      In grades 6–8, there are three types of units:

      • One unit is a launch unit.
      • Three units are core units.
      • Two units are engineering internships.
      Launch units

      Launch units are the first units taught in each year of Amplify Science California. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to actively read in all subsequent units.

      Core units

      Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

      Engineering Internship units

      Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

      Units at a glance

      A barren, rocky desert landscape with rover tracks leading to a distant vehicle on a hill under a hazy sky.
      Geology on Mars

      Domain: Earth and Space Science

      Unit type: Launch

      Student role: Planetary geologists

      Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable.    

      Two prehistoric reptiles with long snouts and tails are near the shore, one on land and one in water, with plants, rocks, and an island in the background.
      Plate Motion

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Geologists

      Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.    

      Download unit guide

      Geometric design featuring a telescope, mountain, sound waves, and cosmic elements on a purple hexagonal background.
      Plate Motion Engineering Internship

      Domain: Earth and Space Science

      Unit type: Engineering internship

      Student role: Mechanical engineering interns

      Phenomenon: Patterns in earthquake data can be used to design an effective tsunami warning system.    

      Illustration of a cross-section of Earth showing a volcano near the ocean. Trees, mountains, and clouds are visible above, with subterranean layers below.
      Rock Transformations

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Geologists

      Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.    

      Download unit guide

      A city skyline at night with a prominent full moon, stars in the sky, and a bridge silhouette on the left.
      Earth, Sun, and Moon

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Astronomers

      Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.    

      Download unit guide

      Abstract artwork depicting a bright sun with blue and orange swirling patterns next to green hills under a sky with shades of blue, orange, and red.
      Ocean, Atmosphere, and Climate

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Climatologists

      Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.    

      Ilustración de un pueblo con casas, campos y montañas bajo un cielo nublado con olas de viento o lluvia.
      Weather Patterns

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Forensic meteorologists

      Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.    

      Download unit guide

      Un oso polar se encuentra sobre un pequeño témpano de hielo en el océano con un sol naranja en el cielo y lejanas montañas heladas al fondo.
      Earth’s Changing Climate

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Climatologists

      Phenomenon: The ice on Earth’s surface is melting.    

      Download unit guide

      Abstract geometric design in shades of blue and purple featuring a hexagon with icons of a building, wrench, molecules, sun, paint can, and screwdriver.
      Earth’s Changing Climate Engineering Internship

      Domain: Earth and Space Science

      Unit type: Engineering internship

      Student role: Civil engineers

      Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.    

      Abstract art with vibrant colors featuring a yellow silhouette of a person holding a book against a background of geometric shapes, swirling patterns, and bold textures.
      Microbiome

      Domain: Life Science

      Unit type: Launch

      Student role: Microbiological researchers

      Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.    

      Abstract artwork of a person's side profile with geometric shapes and colorful patterns flowing from the head, holding a small sledgehammer. A vision chart is visible in the corner.
      Metabolism

      Domain: Life Science

      Unit type: Core

      Student role: Medical researchers

      Phenomenon: Elisa, a young patient, feels tired all the time.    

      Download unit guide

      Orange abstract background with hexagonal shapes featuring icons of a bar chart, plant, safety vest, test tube, peach, and stethoscope.
      Metabolism Engineering Internship

      Domain: Life Science

      Unit type: Engineering internship

      Student role: Food engineers

      Phenomenon: Designing health bars with different molecular compositions can effectively meet the metabolic needs of patients or rescue workers.    

      Imagen que muestra un gráfico de arañas de diferentes colores con patrones distintos de patas y cuerpo, incluidas variaciones de color marrón, amarillo y azul. El fondo es una superficie oscura y texturizada.
      Traits and Reproduction

      Domain: Life Science

      Unit type: Core

      Student role: Biomedical students

      Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.    

      Download unit guide

      An illustration of a whale with jellyfish and turtles from Amplify Science
      Populations and Resources

      Domain: Life Science

      Unit type: Core

      Student role: Biologists

      Phenomenon: The size of the moon jelly population in Glacier Sea has increased.    

      Download unit guide

      Low-poly landscape with trees and mushrooms. A fox sniffs the ground, a rabbit sits nearby, and mountains and sun are in the background.
      Matter and Energy in Ecosystems

      Domain: Life Science

      Unit type: Core

      Student role: Ecologists

      Phenomenon: What caused the mysterious crash of a biodome ecosystem?    

      Download unit guide

      Four low-poly dinosaurs with missing body sections are standing in a row; one is yellow, and the others are green. They have purple spikes and red patches on their bodies.
      Natural Selection

      Domain: Life Science

      Unit type: Core

      Student role: Biologists

      Phenomenon: The newt population in Oregon State Park has become more poisonous over time.    

      Download unit guide

      Red geometric background with icons including a mosquito, DNA strand, bar chart, and world map inside a hexagon.
      Natural Selection Engineering Internship

      Domain: Life Science

      Unit type: Engineering internship

      Student role: Clinical engineers

      Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development while helping malaria patients.  

      Two giant tortoises with long necks stand near water; one tortoise feeds on leaves from a tree while the other is near dense vegetation.
      Evolutionary History

      Domain: Life Science

      Unit type: Core

      Student role: Paleontologists

      Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.    

      Download unit guide

      Two people climbing rocky terrain; illustrations show a hiking boot and a belt with gear.
      Harnessing Human Energy

      Domain: Physical Science

      Unit type: Launch

      Student role: Energy scientists

      Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.    

      Illustration of a futuristic space station with large solar panels, orbiting in deep space, emitting a blue glow from its propulsion system.
      Force and Motion

      Domain: Physical Science

      Unit type: Core

      Student role: Physicists

      Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.    

      Download unit guide

      Green geometric background with a hexagonal emblem containing a parachute icon, ruler, bandage, and stacked layers on a gradient pattern.
      Force and Motion Engineering Internship

      Domain: Physical Science

      Unit type: Engineering internship

      Student role: Mechanical engineering interns

      Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents. 

      Illustration of a roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.
      Magnetic Fields

      Domain: Physical Science

      Unit type: Core

      Student role: Physicists

      Phenomenon: During a test launch, a spacecraft traveled much faster than expected.    

      Illustration of a person in a red hat and fur-lined coat with eyes closed, surrounded by large orange circles on a dark background.
      Thermal Energy

      Domain: Physical Science

      Unit type: Core

      Student role: Thermal scientists

      Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school.    

      Download unit guide

      Ilustración que muestra las etapas de fusión de una paleta de naranja: entera, parcialmente derretida, más derretida y casi derretida por completo, con palitos de madera, sobre un fondo morado.
      Phase Change

      Domain: Physical Science

      Unit type: Core

      Student role: Chemists

      Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart.    

      Download unit guide

      Green geometric graphic featuring icons: a baby, thermometer, layers, medical alert, and a flame.
      Phase Change Engineering Internship

      Domain: Physical Science

      Unit type: Engineering internship

      Student role: Chemical engineering interns

      Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature.    

      Obra de arte digital abstracta que presenta numerosos círculos rojos y grises superpuestos sobre un fondo dividido de azul y violeta claro, creando una composición dinámica y enérgica.
      Chemical Reactions

      Domain: Physical Science

      Unit type: Core

      Student role: Forensic chemists

      Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.    

      Download unit guide

      An illustration from the Light Waves unit
      Light Waves

      Domain: Physical Science

      Unit type: Core

      Student role: Spectroscopists

      Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.    

      Download unit guide

      Resources

      Pilot support brochure for 6–8 (Domain)

      See how we customized our instructional sequence to fully support the Utah SEEd…

      Unit phenomena for 6–8(Domain)

      Take a closer look at the unit phenomena featured in each grade level.

      What’s so phenomenal about phenomena?

      Learn actionable strategies that will help you implement 3-D teaching and learni…

      Un maestro se encuentra al frente de un salón de clases, explicando una lección que se muestra en una pantalla. Los estudiantes se sientan en sus escritorios y algunos levantan la mano.

      Planning Guide for grades 6–8 (Domain)

      Check out these tips for planning to teach.

      Active reading in 6–8

      Learn how we support students in learning how to interact with scientific texts….

      Investigations for 6–8(Domain)

      Explore the types of investigations that take place in middle school classrooms….

      A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

      Sims for 4–8

      Take a closer look at the digital simulations included at each grade level.

      Approaches to assessment in 6–8

      Learn about our middle school embedded assessments.

      AI Features

      To view this protected page, enter the password below:



      Welcome to the Amplify Science classroom showcase!

      The Amplify Science K–8 curriculum blends hands-on investigations, literacy-rich activities, and interactive digital tools to empower students to think, read, write, and argue like real scientists.

      Discover inspiring classroom examples and teacher resources from educators nationwide who are bringing Amplify Science to life.

      Want to showcase your classroom?

      We love seeing how you bring learning to life! Share photos to inspire fellow educators.

      A collage of four images: a Classroom Wall with a science board, a night sky with constellations, birds flying in the sky, and a classroom display about a gecko inspired by Amplify Science.
      A collage of three classroom science boards on animal adaptations, rainforests, and force & motion—each featuring small cartoon animals—brightens the Classroom Wall and highlights hands-on activities inspired by Amplify Science.

      Classroom Wall

      Every Amplify Science unit includes a Classroom Wall that grows and evolves as students build understanding. Here are a few examples from real Amplify Science classrooms!

      Grades K–5

      Credit: Shannon Cox, Sabine Parish School District, LA

      Credit: Rebecca Steindler O’Brien, P.S. 051 The Elias Howe School, NY

      Credit: Veeh Nguyen, Belle Chasse Academy, LA

      Credit: Brittney Gooden, LaSalle Parish, LA

      Credit: Buffy Scott Marcantel, Maplewood Elementary, LA

      Credit: Chrissy Campenni, Wyoming Area School District, PA

      Credit: Christy Flynn, Grant Parish School Board, LA

      Credit: William Howard Taft Elementary School, OH

      Credit: Cristina Cullen, Glendora Unified School District, CA

      Grades 6–8

      Credit: Erica Fernandez, Elsinore Middle School, CA

      Credit: Sheyenne Cahalan, Knox County R-1 School District, MO

      Credit: Joshua Ryan Abellera, Fertitta Middle School, NV

      Credit: Karen Wynne, Portola Middle School, CA

      Credit: Crystal Cuaron Baker, Las Cruces Public Schools, NM

      Credit: Natalia Seoane, Heritage Intermediate School, CA

      Credit: Lisa Anglim, Elizabeth Ustach Middle School, CA

      Credit: Maria Katsanos, New York City Public Schools, NY

      Credit: Lindsey Hampf, Upper Township School District, NJ

      Credit: Anna Radef, Cadwallader Middle School, NV

      Credit: Jessica Kruger, Gardner International, MI

      Credit: Albert Hutchful, Clark County School District, NV

      Credit: Kim Eich, Anoka-Hennepin Public School District 1, MN

      Credit: Shannon Cox, Sabine Parish School District, LA

      Credit: Anna Radef, Clark County School District, NV

      Hands-on science activities

      Students engage in hands-on science activities throughout Amplify Science. These photos capture curiosity in action and showcase real students exploring, building, testing, and investigating in Amplify Science classrooms.

      Students engage in hands-on activities and experiments with liquids and solids, reading, and preparing materials, enhanced by illustrations and abstract art around the photos, supporting the Amplify Science curriculum.

      Grades K–5

      Grade 1: Animal and Plant Defenses
      Designing animal defenses during the Animal and Plant Defenses unit
      Credit: Veeh Nguyen, Belle Chasse Academy, LA

      Grade 1: Light and Sound
      Exploring shadows for the Light and Sound unit
      Credit: Brittney Gooden, LaSalle Parish, LA

      Grade 1: Light and Sound
      Investigating vibrations during the Light and Sound unit
      Credit: Jennifer Baker, Rapides Parish School Board, LA

      Grade 1: Light and Sound
      Puppet show for the Light and Sound unit
      Credit: Anna Dardar, Rapides Parish School Board, LA

      Grade 2: Changing Landforms
      Exploring sand samples for the Changing Landforms unit
      Credit: Rebecca Steindler O’Brien, P.S. 051 The Elias Howe School, NY

      Grade 3: Balancing Forces
      Exploring forces with magnet tricks for the Balancing Forces unit
      Credit: Maureen Patt, Broad Street Elementary School, NH

      Grade 3: Inheritance and Traits
      Imaginary clay creatures to investigate traits in real organisms for the Inheritance and Traits unit
      Credit: Maribel Ramos, Esperanza Academy Charter School, PA

      Grade 3: Inheritance and Traits
      Students showing off their knowledge for the Inheritance and Traits unit by creating their own drawings.
      Credit: Sandi O’Brien, Parkmead Elementary School, CA

      Grade 3: Inheritance and Traits
      Determining which offspring belong to which set of parent pigeons based on similar traits for the Inheritance and Traits unit
      Credit: Sandi O’Brien, Parkmead Elementary School, CA

      Grade 3: Inheritance and Traits
      Using celery as a real-life example of how the environment can impact traits, during the Inheritance and Traits unit
      Credit: Sandi O’Brien, Parkmead Elementary School, CA

      Grade 3: Environments and Survival
      Modeling how ruby-throated hummingbirds with different traits meet their need for food during the Environments and Survival unit
      Credit: Sandi O’Brien, Parkmead Elementary School, CA

      Grade 3: Weather and Climate
      Learning the best ways to collect, measure, and compare rainfall data for the Weather and Climate unit
      Credit: Sandi O’Brien, Parkmead Elementary School, CA

      Grade 4: Energy Conversions
      Students created their own simple systems using a solar panel, alligator clips, wires, an LED light, and a buzzer during the Energy Conversions unit
      Credit: Sandi O’Brien, Parkmead Elementary School, CA

      Grade 4: Energy Conversions
      Designing wind turbines during the Energy Conversions unit
      Credit: Sandi O’Brien, Parkmead Elementary School, CA

      Grade 4: Vision and Light
      Planning vision models for the Vision and Light unit
      Credit: Maribel Ramos, Esperanza Academy Charter School, PA

      Grade 4: Vision and Light
      Writing a scientific explanation for the Vision and Light unit
      Credit: Chrissy Campenni, Wyoming Area School District, PA

      Grade 5: Patterns of Earth and Sky
      Investigating daytime and nighttime during the Patterns of Earth and Sky unit
      Credit: Sandi O’Brien, Parkmead Elementary School, CA

      Grade 5: Patterns of Earth and Sky
      Hands-On Flextension: Making artifacts for the Patterns of Earth and Sky unit
      Credit: Adriana Barrera, J.W. Bishop Elementary School, TX

      Grade 5: Modeling Matter
      Flavor ingredients test for the Modeling Matter unit
      Credit: Kevin Butters, Grand Island Public Schools, NE

      Grade 5: Modeling Matter
      Testing ingredients to make salad dressing during the Modeling Matter unit
      Credit: Sandi O’Brien, Parkmead Elementary School, CA

      Grade 5: Modeling Matter
      Discussing solubility and attraction during the Modeling Matter unit
      Credit: Cristina Cullen, Glendora Unified School District, CA

      Grade 5: The Earth System
      Designing freshwater systems for The Earth System unit
      Credit: Sandi O’Brien, Parkmead Elementary School, CA

      Grade 5: Ecosystem Restoration
      Building terrariums for the Ecosystem Restoration unit
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 5: Ecosystem Restoration
      Leaves and Roots game board from the Ecosystem Restoration unit
      Credit: Cyndi Thompson Crouch, Smithville School District, MO

      Grade 5: Ecosystem Restoration
      Food web models with students’ favorite stuffed animals for the Ecosystem Restoration unit
      Credit: Halli Trinker, Boonton Township School District, NJ

      Grades 6–8

      Grade 6: Microbiome
      Drawing scale models of microorganisms for the Microbiome unit
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 6: Microbiome
      Hands-On Flextension: Investigating microscopic evidence of life for the Microbiome unit
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 6: Metabolism
      Investigating chemical reactions with water, phenol red, baking soda, and calcium chloride for the Metabolism unit
      Credit: Jessica Kruger, Gardner International Magnet School, MI

      Grade 6: Metabolism
      Introducing the classroom body systems model for the Metabolism unit
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 6: Metabolism Engineering Internship
      Healthy bars for the Metabolism Engineering Internship
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 6: Thermal Energy
      Simulating hot and cold water during the Thermal Energy unit
      Credit: Whitney Stewart, Rapides Parish School Board, LA

      Grade 6: Ocean, Atmosphere, and Climate
      Playing the Ocean Currents game for the Ocean, Atmosphere, and Climate unit
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 6: Weather Patterns
      Modeling a warm air parcel for the Weather Patterns unit
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 7: Geology on Mars
      The Flowing Water Model for the Geology on Mars unit
      Credit: Kim Eich, Anoka-Hennepin Public School District 1, MN

      Grade 7: Plate Motion Engineering Internship
      Modeling a tsunami wave for Plate Motion Engineering Internship
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 7: Chemical Reactions
      Investigating substance changes for the Chemical Reactions unit
      Credit: Ashlie Beals Arkwright, SCAPA at Bluegrass, KY

      Grade 7: Populations and Resources
      Conducting a yeast experiment during the Populations and Resources unit
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 8: Harnessing Human Energy
      Investigating energy systems for the Harnessing Human Energy unit
      Credit: Lisa Anglim, Elizabeth Ustach Middle School, CA

      Grade 8: Force and Motion
      Investigating forces on different objects for the Force and Motion unit
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 8: Force and Motion Engineering Internship
      Designing an Egg Drop Model during the Force and Motion Engineering Internship
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 8: Magnetic Fields
      Hands-On Flextension: Exploring electrostatic force for the Magnetic Fields unit
      Credit: Melanie Wenger, Lincoln Park Middle School, NJ

      Grade 8: Light Waves
      Students observing that light can cause materials to heat up, change color, and move for the Light Waves unit
      Credit: Gloria Davis, Panama-Buena Vista Unified School District, CA

      Grade 8: Light Waves
      Students discover what happens to light as it travels for the Light Waves unit
      Credit: Gloria Davis, Panama-Buena Vista Unified School District, CA

      Grade 8: Light Waves
      Students participating in a fishbowl discussion to share observations and evidence for the Light Waves unit
      Credit: Gloria Davis, Panama-Buena Vista Unified School District, CA

      Grade 8: Earth, Moon, and Sun
      Paper model of the Moon’s phases for Earth, Moon, and Sun unit
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Grade 8: Evolutionary History
      Hands-On Flextension: Reconstructing owl pellet skeletons for the Evolutionary History unit
      Credit: Elizabeth DeBoo, St. Frances Cabrini Academy, MO

      Welcome to Amplify CKLA!

      Amplify Core Knowledge Language Arts (CKLA) is a cutting-edge and effective core ELA program for students in grades K–5. It was developed in partnership with the Core Knowledge Foundation, features proven evidence-based instructional practices, and was specifically designed to help teachers implement Science of Reading principles.

      Note: We’re continually adding information to this site, including specific details regarding our alignment with your non-negotiables. Keep checking back with us between now and April 20, 2023.

      Getting Started

      On this site, you’ll find a variety of resources designed to support your review and evaluation of the program. Before you dive in, watch the Orientation Overview and Program Overview videos below to learn about CKLA’s alignment to CCSD’s ELA adoption requirements, as well as where to find key program resources.

      [Video] Orientation Overview

      [Video] Program Overview

      In the video below, learn about CKLA’s structure and materials, as well the research behind the curriculum.

      Evidence-Based

      [Video] Pedagogical Overview with Simple View of Reading

      In the video below, Amplify’s Chief Academic Officer Susan Lambert shares the big picture of CKLA, and explains why it was created and the impact it’s making across the country. Below are a few portions of the video that you may find particularly helpful as you conduct your review.

      • 0-1:00 Why CKLA?
      • 1:00-4:40 How CKLA was built on the Simple View of Reading
      • 4:40-8:00 How to review the CKLA Components
      • 8:00-end Teacher Testimonial

      [Features] Supporting the Simple View of Reading

      Built out of the latest research in the Science of Reading, Amplify CKLA delivers explicit instruction in both foundational literacy skills (systematic phonics, decoding, and fluency) and background knowledge in grades K–2 with an integrated approach to explicit instruction in grades 3–5.

      Review this Science of Reading toolkit to learn more about the Science of Reading best practices integrated throughout CKLA.

      See our Science of Reading solutions in action! Click here to see a real example of how one Ohio district is implementing and educating their K–8 community on the Science of Reading as a response to Ohio’s Plan to Raise Literacy Achievement Initiative.

      Great reading instruction starts with helping kids develop great decoding skills. By building a solid foundation of phonological awareness and phonics, reading the words on the page becomes automatic so that comprehension and critical thinking can happen. Our instruction is supported by:

      • Step-by-step lessons with multisensory approaches, clear lesson objectives, and embedded formative assessments.
      • Decodable books and student readers with ebook and audiobook versions that feature engaging plots and relatable characters.
      • An engaging sound library with fun songs and videos that develop phonological awareness.
      • An interactive Vocab App featuring engaging activities with immediate feedback and automated, customized instruction based on student performance.

      Students build grade-appropriate subject-area knowledge and vocabulary in history, science, literature, and the arts while learning to read, write, and think creatively and for themselves. Our instruction is supported by:

      • Knowledge builders that provide a quick overview of each domain with its key ideas.
      • Interactive Read-Alouds designed to build knowledge and vocabulary.
      • Content-rich anchor texts that support students as they tackle increasingly complex text and sharpen their analytical skills.
      • Social and emotional learning paired with lessons in civic responsibility.

      Easy-to-Use Materials

      Amplify CKLA offers a number of digital and multimedia resources to support instruction and enhance the teacher and student experience.

      • Amplify CKLA Digital Experience Site: All teacher and student materials are posted on this site for planning and information purposes, including Teacher Guides, Readers, Activity Books, Ancillary Materials, videos, additional resources, and links to other useful sites, such as the Professional Learning site.
      • The Professional Learning Site: This site includes training materials, best practices, and other resources to develop program expertise. Access professional development anywhere, anytime.
      • Intervention Toolkit: The Intervention Toolkit provides easy-to use resources to assist teachers in filling gaps in students’ foundational skills. Teachers will find hundreds of activities to support phonics, fluency, comprehension, handwriting, and other key skills.
      • The Science of Reading: The Podcast: Hosted by Susan Lambert, The Podcast delivers the latest insights from researchers and practitioners in early reading. Each episode takes a conversational approach and explores a timely topic related to the Science of Reading.

      In addition to the videos below, our CKLA Components Guide can be a helpful tool as you explore the materials provided within your sample tubs.

      [Video] Physical Materials Walkthrough

      As you explore your physical samples, the material walkthrough video below can be a helpful resource. In particular, we suggest watching the following portions of the video.

      • 0-4:38 CKLA components for K–2
      • 4:38-7:00 CKLA components for 3–5
      • 7-7:30 CKLA Program Guide
      • 10:12-13:20 CKLA’s Teacher Resource Site

      Note: The below video covers both our K-5 program (Amplify CKLA) as well as our 6-8 program (Amplify ELA).

      [Video] Digital Materials Walkthrough

      In the video below, learn about CKLA’s digital tools for teachers and students across both classroom and asynchronous environments.

      As you prepare to explore our digital platform, be sure to watch and refer to the video below.

      Diverse Texts

      In Amplify CKLA, texts serve a variety of purposes, from building background knowledge, vocabulary, and comprehension to building decoding and fluency skills.

      In grades K–2, instruction is segmented between two strands: Knowledge and Skills.

      • Reading within the Knowledge Strand is centered around authentic read-alouds and trade books that are intentionally sequenced to build content knowledge and vocabulary in specific domain topics around literature, history, science, and the arts. Because research shows that students’ listening comprehension outpaces their reading comprehension until their early teens, Amplify CKLA strategically uses read-aloud text in this strand, allowing students to focus their cognitive energy on gaining meaning from the words and better understanding from the images.
      • Reading within the Skills Strand centers around carefully crafted Student Readers that teach students how to read. Structured as chapter books, these readers are 100% decodable and were developed to align with Amplify CKLA’s scope and sequence for phonics, directly connecting instruction to student practice in connected texts. Students use the Readers to practice decoding, fluency, and comprehension during shared reading lessons, targeted close reading sessions, in small groups, and independently.

      In grades 3–5, integrated units bring the Skills and Knowledge strands together as students become increasingly automatic and strategic in their word recognition and language comprehension skills. Student reading and comprehension activities involve a variety of reading materials:

      • Authentic Read-Alouds and trade books ensure students encounter a variety of perspectives as they use these complex text to increase their knowledge while practicing vocabulary and listening comprehension skills.
      • Student Readers connect to each theme and are designed to increase in complexity over time, providing a continual challenge as students’ reading and listening comprehension skills develop and strengthen throughout the year.
      • Novel Guides provide teachers a flexible option for extending authentic reading and text-based activities in the classroom using award-winning and acclaimed novels.
      • ReadWorks articles give students access to additional high-quality texts aligned to both Amplify CKLA knowledge topics and the topics outlined in the Common Core State Standards.

      Decodable Readers at Grades K–2

      Our Decodable Readers are designed to progress in skills, mirroring the scope and sequence of instruction, which allows students to immediately apply what they are learning to 100% decodable text. More specifically, our decodables:

      • Are uniquely designed to provide intensive practice with the CKLA code while students read compelling and engaging stories and informational texts for the first time.
      • Gradually introduce students to “tricky” spelling concepts, such as different sounds that use the same letter code.
      • Increase in text complexity (i.e., content, length, and vocabulary) as students progress through the grades.
      • Include fiction and nonfiction text.
      • Are available as ebooks and audiobooks.

      Below, you can see how students grow from year-to-year across grades K–2.

      Student Readers at Grades 3–5

      By grades 3–5, students have mastered the basics of decoding and are hungry to use what they’ve learned to reach out to the world. Although Read-Alouds remain an important part of lessons, students are also encouraged to practice independent reading starting in grade 3 with the support of carefully crafted Student Readers. These readers are chock-full of various text types, cultural stories, and a blend of fiction and nonfiction texts that are tied to and support the overarching theme of the unit.

      Read-alouds

      Authentic literature exposes students to a variety of text types and perspectives to deepen their knowledge of fascinating topics in social studies, science, literature, and the arts. Authentic texts support text-to-self, text-to-world, and text-to-text connections for readers.

      Trade books

      Our optional Trade Book Collection (and suggested list of additional trade books) align with our grade-level topics, and extend the knowledge students are learning through an authentic text.

      Novel Guides

      Novel Guides bring students beyond the CKLA curriculum. We provide fifteen full days of instruction on contemporary trade books, as well as writing prompts that help students navigate the authentic literature they love.

      ReadWorks

      Amplify CKLA and ReadWorks® have partnered to deliver high-quality texts curated to support the Amplify CKLA Knowledge Sequence and to extend student learning. Texts include high-interest nonfiction articles in topics in social studies, science, literature, and the arts. These texts are accompanied by vocabulary supports and standards-aligned formative assessment opportunities. Teachers can monitor their students’ progress using the ReadWorks reporting features.

      Reading resources

      The following resources may be helpful as you explore our approach to reading and the role that diverse texts play in the program.

      Writing

      CKLA is rich with opportunities for students to develop, practice, and hone their writing skills. While the shape of writing instruction looks slightly different at each grade level, a commonality across all grades K–5 is that writing isn’t taught in isolation. Rather, it’s embedded within the context of each unit, and is connected to what students read.

      At Grades K–2, writing takes place in both the Skills and Knowledge strands.

      • Explicit instruction in writing skills (such as sentence structure) and handwriting takes place in the Skills Strand, and is tied to the decodable readers used within each unit.
      • Extended writing and writing process activities take place in the Knowledge Strand.

      At Grades 3–5, writing is embedded through the integrated units.

      • Across each unit, students work on smaller, more discrete writing skills alongside their Student Reader. These skills eventually culminate at the end of each unit in the form of a writing project.
      • In 4th and 5th grades, we expand writing even further with the addition of Poetry units.

      Writing and text-dependent questions

      The overwhelming majority of questions, tasks, and assignments in CKLA materials are text-dependent. Every CKLA unit and domain is based around key texts that are either read aloud, with a peer, or independently. These readings are followed by class discussions where students are expected to refer to these texts when answering literal, inferential, and evaluative questions, both orally during class discussions and through written responses.

      • Literal questions assess students’ recall of key details from the text. These are text-dependent questions that require students to paraphrase and/or refer back to the portion of the text where the specific answer is provided.
      • Inferential questions ask students to infer information from the text and to think critically. These text-dependent questions require students to summarize and/or reference the portions of the text that lead to and support the inference they are making.
      • Evaluative questions ask students to build on what they have learned from the text using analytical and application skills, often to form an opinion or make a judgment. These questions require students to paraphrase and/or cite the textual evidence that substantiates their argument or opinion.

      In addition, students are often asked to generate additional questions based on the texts. Students further demonstrate understanding in writing by applying what they have learned and providing evidence from the text to back up their answers and opinions. For example, Grade 3 students learning about sea exploration write a paragraph from the perspective of a sailor on John Cabot’s ship, stating their opinion of whether the hardships they experienced are worth the adventure or glory and citing examples from the text to support their response. Grade 5 students studying the Adventures of Don Quixote write a four-paragraph persuasive essay arguing whether they believe Don Quixote’s good intentions justify his often calamitous actions, using reasons and evidence from the text to support their claims.

      Writing with authentic literature

      Novel Guides are designed around authentic texts students love. They not only help students foster a love for reading, they also present authentic opportunities for students to express themselves through writing. Novel Guides provide daily text-based writing and discussion through five activity types:

      • Ask contains questions for discussion, reflection, or brief written responses. These questions cover information all students should understand as they read the text.
      • Explore prompts offer brief research opportunities centered around items mentioned in the text.
      • Imagine activities promote creativity and further reflection.
      • Observe items ask students to take notes or make other kinds of observations about what they have read.
      • Understand questions push students to explore connections to the text.

      Writing and enrichment

      Writing tasks throughout the program provide almost limitless opportunities for extension. Feedback from the teacher, peers, and self-reflection provide students opportunities to strengthen their writing. For example, advanced students can be encouraged to:

      • Use more complex and unusual descriptive vocabulary.
      • Incorporate figurative language into their writing.
      • Write multi-clause sentences with more complex joining words.
      • Create longer or richer opinion, explanatory, and narrative pieces.
      • Evaluate the use of informational textual characteristics and use in their own writing (e.g., headers, bullets).

      Writing resources

      The following resources may be helpful as you explore our approach to writing and how writing develops across the program.

      Access the program

      Explore as a teacher

      Before logging in, watch this brief video on navigating the CKLA Teacher Resource Site.

      Ready to explore as a teacher? Follow these instructions:

      • Click the CKLA Teacher Resource Site button below.
      • Select Log in with Amplify.
      • Enter the username: t1.ccsd-k5-ckla@demo.tryamplify.net
      • Enter the password: Amplify1-ccsd-k5-ckla
      • Click the CKLA Teacher Resource icon
      • Select a grade level
      CKLA Teacher Resource Site

      Explore as a student

      Before logging in, watch this brief video on navigating the CKLA Student Hub.

      Ready to explore as a student? Follow these instructions:

      • Click the CKLA Teacher Resource Site button below.
      • Select Log in with Amplify.
      • Enter the username: s1.ccsd-k5-ckla@demo.tryamplify.net
      • Enter the password: Amplify1-ccsd-k5-ckla
      • Click the CKLA Teacher Resource icon
      • Select a grade level
      CKLA Student Hub

      Check out these additional resources

      Nevada submission resources:

      CKLA review resources:

      Amplify CKLA Review for Alabama

      To view this protected page, enter the password below:



      About the program

      mCLASS offers teacher-administered assessment, intervention, and personalized instruction for grades K–6. Know exactly how to monitor and support every student in your classroom, with features like:

      • Precise one-minute measures based on over three decades of predictive data.
      • Universal and Reading Difficulties screening in one tool.
      • Instruction that highlights observed patterns and recommends activities.
      • Robust reports for teachers, specialists, administrators, and parents.
      Table displaying student reading assessment data by skill area and benchmark status, based on universal screening, with percentages and student counts for each category across the year.

      The right measures at the right time

      With mCLASS DIBELS 8th Edition, you’ll assess students based on grade-specific curriculum and instructional standards, in accordance with International Dyslexia Association (IDA) guidelines.

      mCLASS DIBELS 8th Edition offers one-minute, easy-to-administer measures of processing speed, phonological awareness, alphabetic principle, and word reading.

      DIBELS® 8th Edition subtest alignment with SB 114 requirements
      RDRP Screening AreamCLASS DIBELS 8th Edition MeasureGrade KGrade 1Grade 2Grade 3Grade 4–6
      Rapid naming abilityLetter Naming Fluency (LNF)A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.
      Phonological awarenessPhoneme Segmentation Fluency (PSF)A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.
      Alphabetic principleNonsense Word Fluency (NWF)A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.
      Word readingWord Reading Fluency (WRF)A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.
      Word readingOral Reading Fluency (ORF)A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.
      ComprehensionMazeA large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.
      Language ComprehensionOral LanguageA large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.
      VocabularyVocabularyA large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.
      RANRapid Automatized Naming (Numbers)A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.A large, light peach-colored checkmark on a transparent background.
      EncodingSpellingOPTIONAL

      Validated as a universal screener and a dyslexia screener

      Strong reliability and validity evidence shows that DIBELS 8th Edition can effectively assess students in key skills linked to both dyslexia and broader reading difficulty. The research supporting DIBELS 8th Edition, conducted by the University of Oregon, is rigorous, meets high technical standards, and empowers educators to make well-informed decisions.

      Read the DIBELS 8th Edition Dyslexia White Paper.

      A document cover titled "Dyslexia Screening and DIBELS 8th Edition" by Christopher Ives, Gina Biancarosa, Hank Fien, and Patrick Kennedy from the University of Oregon College of Education. The cover has a PDF icon.

      A complete system for data-based decision making

      A flowchart illustrating a cyclical process: assess skills, identify risk, provide personalized instruction, progress monitor, and adjust instruction. Features images of people, charts, and a dyslexia assessment screen for comprehensive analysis.

      mCLASS DIBELS 8th Edition provides rich data that helps you make informed instructional decisions and seek out further dyslexia screening evaluation if needed:

      1. Assess skills: mCLASS DIBELS 8th Edition and optional dyslexia screenings in Rapid Automatized Naming (RAN), Spelling, Vocabulary, and Oral Language accurately assess students’ abilities.
      2. Identify risk: The DIBELS 8 composite score shows each student’s risk level, with ‘Well Below Benchmark’ indicating a need for intensive support. Students who are also ‘Well Below Benchmark’ in RAN and/or Spelling have an additional Risk Indicator icon next to their name.
      3. Provide instruction: The mCLASS Instruction feature analyzes student error patterns to key dyslexia-related subtests, then recommends small groups and explicit, multi-sensory activities for reinforcing skills.
      4. Progress monitor: mCLASS includes progress-monitoring measures to track student growth in letter sounds, alphabetic principle, word reading, oral reading fluency, and comprehension, so that informed instructional decisions can be made.
      5. Adapt instruction: mCLASS displays indicators based on progress monitoring performance that indicate when a change in instruction may be needed. It also updates instruction recommendations using the latest data.
      Request a demo

      Differentiated literacy instruction

      mCLASS DIBELS 8th Edition lays the groundwork for a strong Multi-Tiered System of Supports (MTSS).

      In addition to identifying students with symptoms of dyslexia, mCLASS DIBELS 8th Edition data recommends early intervention, personalized instruction, and core instruction within Amplify’s early literacy suite. Based on the Science of Reading, Amplify’s early literacy suite programs follow an explicit and systematic structure, build knowledge, and instruct on all of the foundational skills essential to literacy development.

      Diagram showcasing "Science of Reading Skill Development" with three branches: "Universal and Dyslexia screening," "Core instruction," "Personalized learning," and "Intervention," with accompanying photos of people interacting.

      Bilingual Reading Difficulties screening

      By assessing with mCLASS DIBELS 8th Edition and its Spanish counterpart, mCLASS Lectura, you’ll know with confidence whether a student truly shows signs of of reading difficulties or is experiencing difficulties learning a new language.

      When used together, mCLASS DIBELS 8th Edition and mCLASS Lectura feature a Dual Language Report that analyzes Reading Difficulties screening results in both languages. The report also details how each student can leverage their strengths from one language to support growth in the other.

      Student named Marisol Mejía is shown with her English and Spanish literacy scores. English scores are mostly Well Below and Below benchmark; Spanish scores are mostly at Benchmark except for one below.

      Equal skill coverage in English and Spanish

      mCLASS Lectura subtest alignment with SB114

      RDRP screening areasEnglish measureSpanish measureDescription*
      Letter Naming and RANLetter Naming Fluency (LNF)Fluidez in nombrar letras (FNL)Grades K–1: Naming letters in print. 1 minute, 1:1 administration.
      Phonological Awareness (Segmentation)Phonemic Segmentation Fluency (PSF)Fluidez en la segmentación de sílabas (FSS) & Fluidez en la segmentación de fonemas (FSF)Grades K–1: Hearing and using sounds or syllables in spoken words. 1 minute, 1:1 administration.
      Phonological Awareness (Elision) –¿Qué queda? (QQ)Grades K–2: Produce the part of a word that remains after deleting a syllable or phoneme. 1 minute, 1:1 administration.
      Letter Sound Correspondence KnowledgeNonsense Word Fluency Correct Letter Sounds(NWF-CLS)Fluidez en los sonidos de letras (FSL)English: Grades K–3: Identify letter-sound correspondences in the context of pseudo-words. Spanish: Grades K-1: Identify letter-sounds in isolation. 1 minute, 1:1 administration.
      Letter-Sound Knowledge (Receptive) –Fluidez en los sonidos de las letras K-Inicio (FSL K-Inicio)Grade K: Identify (point to) which letter makes a certain sound. Untimed, 1:1 administration.
      DecodingNonsense Word Fluency Words Recoded Correctly (NWF-WRC)Fluidez en los sonidos de las sílabas (FSL)Grades K–3: Identify letter-sound correspondences in the context of pseudo-words. Spanish: Grades K–1: Identify letter-sounds in isolation. 1 minute, 1:1 administration.
      Word ReadingWord-Reading Fluency (WRF)Fluidez en las palabras (FEP)Grades K–3: Reading common words easily, quickly and correctly.1 minute, 1:1 administration.
      FluencyOral Reading Fluency (ORF)Fluidez en la lectura oral (FLO)Grades 1–6: Reading connected text with accuracy and automaticity. 1 minute, 1:1 administration.
      Reading ComprehensionMaze¿Cuál palabra? (CP)Grades 2–6:  Understanding meaning from texts. 3 minutes, group administration.
      VocabularyVocabularyVocabularioGrades K–3: Arranging letters correctly to spell words with grade appropriate features. 15 minutes, group administration.
      EncodingSpellingOrtografíaGrades K–3: Arranging letters correctly to spell words with grade-appropriate features.
      15 minutes, group administration.
      RAN (Numbers)Rapid Automatized NamingGrades K–3: Correctly and quickly naming visual symbols, such as numbers. 1-2 minutes, 1:1 administration.
      Language ComprehensionOral LanguageLenguaje oralGrades K–2: Demonstrate the ability to use words and phrases acquired through conversations, reading and being read to, and responding to texts. 5 minutes, 1:1 administration.

      *Students can be assessed using off-grade measures when information on specific skills is needed.

      Resources for families

      Welcome California Caregivers! Please click here to learn more about mCLASS assessments. 

      Families play a crucial role in helping children overcome reading challenges. mCLASS DIBELS 8th Edition and mCLASS Lectura provide a Home Connect letter after each screening to explain the results in family-friendly language, recommend activities, and direct families to a free website for additional at-home support.

      A woman helps a young girl work on a computer in a classroom setting. Both are smiling and focused on the screen. Background has soft shapes in yellow and blue.

      Developmentally appropriate

      Computer-based assessments that require students to complete tasks silently or independently may over-identify students for intervention services, especially young learners who are still developing focus and attention abilities.

      mCLASS requires students to actively demonstrate their proficiency in producing letter sounds, forming words, and reading texts. This approach to assessment aligns with IDA guidelines for effective screening of reading challenges. By choosing mCLASS for universal screening, you’ll gain accurate information about a student’s risk for reading difficulties, and gain the capability to monitor every student’s path to reading proficiency.

      Additional resources

      mCLASS Resources

      Dyslexia Resources

      Multilingual and English learners Resources

      Your California team

      Looking to speak directly with your local representative?
      Get in touch with a California team member to learn more about our early literacy suite or request a demo account.

      Dan Pier
      Vice President, West
      (415) 203-4810
      dpier@amplify.com

      Erin King
      Sales Director, CA
      (512) 736-3162
      eking@amplify.com

      NORTHERN CA
      Wendy Garcia
      Senior Account Executive
      (510) 368-7666
      wgarcia@amplify.com

      BAY AREA
      Lance Burbank
      Account Executive
      (415) 830-5348
      lburbank@amplify.com

      CENTRAL VALLEY and CENTRAL COAST
      Demitri Gonos
      Senior Account Executive
      (559) 355-3244
      dgonos@amplify.com

      VENTURA and L.A. COUNTY
      Jeff Sorenson
      Associate Account Executive
      (310) 902-1407
      jsorenson@amplify.com

      ORANGE and L.A. COUNTY
      Lauren Sherman
      Senior Account Executive
      (949) 397-5766
      lsherman@amplify.com

      SAN BERNARDINO and L.A. COUNTY
      Michael Gruber
      Senior Account Executive
      (951) 520-6542
      migruber@amplify.com

      RIVERSIDE AND L.A. COUNTY 
      Brian Roy
      Senior Account Executive
      (818)967-1674
      broy@amplify.com

      SAN DIEGO COUNTY
      Kirk Van Wagoner
      Senior Account Executive
      (760) 696-0709
      kvanwagoner@amplify.com

      BUTTE, DEL NORTE, HUMBOLDT, and SHASTA COUNTY and DISTRICTS UNDER 2250 ENROLLMENT
      Kevin Mauser 
      Lead Account Executive
      (815) 534-0148
      kmauser@amplify.com

      A colorful collage featuring a globe, running sheep, ladybug, butterfly, and a princess against a grassy and book-themed background.

      Amplify CKLA 3rd Edition Pilot Packs

      Beginning-of-year pilot

      We know it can be overwhelming to start a new curriculum, but we’re here to help every step of the way! Within this site, you’ll find resources to help you get started before your implementation training, including a materials checklist, unit and domain summaries, support videos, and more. These tools will support your core literacy instruction with Amplify CKLA during your pilot period. We hope this site is helpful in getting you started.

      Beginning-of-year pilot
      Get started

      To get started with your new pilot of Amplify CKLA 3rd Edition, you’ll first want to review the following:

      You may also find the resources below helpful as you begin your pilot:

      Access key materials designed to support your review of Amplify CKLA 3rd Edition.

      Amplify CKLA’s all-in-one digital platform offers essential tools that streamline instruction for teachers and engage students with meaningful content. Teachers can plan and deliver lessons efficiently, while students can access assignments, assessments, and fun practice games.

      Presentation Screens
      Deliver interactive lessons with ready-made, customizable slides for every lesson.

      Auto-scored digital assessments
      Assess vocabulary, comprehension, and knowledge development at the end of each K–2 Knowledge and 3–5 Integrated Unit.

      Standards-based reports
      Identify strengths and growth areas for individuals or your entire class. Interactive dashboards offer detailed results from assessments and activities.

      Skill-building practice games
      Engage students with interactive games that reinforce concepts and make learning fun. Powered by Boost Reading™, these games align with lessons and provide real-time feedback.

      eReader
      Students access texts, take notes, and use audio-enabled eReaders to enhance their reading experience.

      Sound Library
      Students watch articulation videos and listen to songs for each sound to support phonological awareness.

      Two computer screens display educational assessment interfaces, with reports and questions on charting world geography and sentence usage.
      Three book covers: "Stories" with animals, "Poetry" with butterflies, and "Knights" with a knight on horseback, linked by colorful lines and shapes.

      Beginning-of-year Pilot Pack materials

      Below are the components of your Amplify CKLA Pilot Pack, organized by grade level and teacher/student materials. Please click on your grade level to review the teacher and student materials listed and verify that all items have been received.

      Amplify CKLA Kindergarten Skills 1 Teacher Guide cover with a large number 1, a cat, insects, a hat, a table, and speech sound symbols on a pink background.

      Teacher materials

      Skills Unit 1 Teacher Guide
      Book cover titled "Skills 2 Teacher Guide" with a large white number 2. Includes illustrations of a cat, insects, a hat, and phonetic symbols. Red background with "Amplify CKLA" label.

      Teacher materials

      Skills Unit 2 Teacher Guide
      Cover of "Skills 3" Teacher Guide by Amplify CKLA for Kindergarten featuring large number 3, phonetic symbols, a cat, insects, and a bowl on a pink background.

      Teacher materials

      Skills Unit 3 Teacher Guide
      Cover of "Skills 4" teacher guide with a large number 4, cat, insects, and speech sound symbols on a pink background. Top left shows "Amplify CKLA" and "Grade K.

      Teacher materials

      Skills Unit 4 Teacher Guide
      Cover of "Amplify CKLA Skills 5 Teacher Guide." Features a large number 5, a cat, a hat, a stand, insects, and speech balloons with phonetic symbols on a pink background.

      Teacher materials

      Skills Unit 5 Teacher Guide
      Illustration of three characters standing by a white fence. A man and two dressed animals observe chickens and chicks in the foreground, with a barn and tree in the background.

      Teacher materials

      Skills Unit 4 Big Book
      Illustrated book cover titled "Ox and Man" shows an ox and three children running through a colorful landscape with hills and trees under a blue sky with clouds.

      Teacher materials

      Skills Unit 5 Big Book
      Red educational card cover with "Small Letter Cards" for Grade K. Features illustrations of a cat, insects, table with an apple, and a hat. Speech bubbles showing phonetic sounds.

      Teacher materials

      Small Letter Card Set
      Red cover with illustrations of a cat, insects, fruit bowl, and hat. Label reads "Skills Large Letter Cards" for Grade K. Various phonetic symbols and patterns are scattered around.

      Teacher materials

      Large Letter Card Set
      Red educational poster with phonetic symbols. Includes illustrations of a cat, a table with an apple, and insects. Labeled "Amplify CKLA" and "Grade K" with "Skills Sound Posters" at the bottom.

      Teacher materials

      Sound Posters Sample
      Cover of Amplify CKLA Grade K Skills Sound Cards with a bowl, cat, hat, and insects on a pink background. ISBN and barcode displayed.

      Teacher materials

      Sound Cards Sample
      Cover of a book titled "Assessment Guide: Check-Point Assessments" with images of a cat, dragonfly, bugs, and a hat on a red background.

      Teacher materials

      Skills Assessment Guide (Black Line Master)
      Book cover for "Star Light, Star Bright: Nursery Rhymes and Fables, Teacher Guide." Features illustrations of animals, a house, and a garden. Amplify CKLA logo is visible.

      Teacher materials

      Knowledge 1 Teacher Guide
      Children and adults engaging in various outdoor activities, such as playing instruments and picnicking, in a park; cover of "See, Hear, Smell, Taste, Touch: The Five Senses" teacher guide.

      Teacher materials

      Knowledge 2 Teacher Guide
      Children's book cover depicting a boy playing a violin outdoors with animals and trees, titled "Underdogs and Heroes: Stories.

      Teacher materials

      Knowledge 3 Teacher Guide
      Book cover depicting a child sitting in a garden with trees and plants, picking flowers. The title reads "See How They Grow: Plants.

      Teacher materials

      Knowledge 4 Teacher Guide
      A whimsical book cover featuring a countryside cottage with a red door and vibrant garden. Illustrations of Mother Goose, a tortoise, a hare, and clouds are scattered around. Title: "Nursery Rhymes and Fables.

      Teacher materials

      Knowledge 1 Image Cards
      A diverse group of people enjoying a park, with children playing, a person playing guitar, others cooking on a barbecue, and a person petting a dog. A small ice cream stand is nearby.

      Teacher materials

      Knowledge 2 Image Cards
      Illustration of a child playing a violin in a forest clearing, surrounded by animals including chickens, a sheep, and a bear. A large pink boot-shaped house is in the background.

      Teacher materials

      Knowledge 3 Image Cards
      Children's book cover: a child in a hat tends a garden with trees, flowers, and a squirrel. Text reads "See How They Grow: Plants" for Grade K.

      Teacher materials

      Knowledge 4 Image Cards
      A screenshot of a cell phone.

      Student materials

      Skills 1–5 Activity Book Sample
      Red educational cover with illustrations of a cat, insects, a hat, and phonetic symbols. Text reads: "Amplify CKLA Skills Chaining Folder Sample For Review Purposes Only.

      Student materials

      Chaining Folder
      Red book cover titled "Skills Picture Reader." Features illustrations of a cat, table, insects, dragonfly, and a hat with speech bubbles containing vowels. Designed for kindergarten.

      Student materials

      Picture Reader Sample
      Cover of Amplify CKLA Activity Book for Kindergarten, featuring a red design, a globe, sunflowers, and a list of topics including the five senses and geography.

      Student materials

      Knowledge 1–4 Activity Book Sample
      Cover of "Skills 1" teacher guide from Amplify CKLA. Features a large number one, knight, frog, coins, and phonetic symbols on a yellow background.

      Teacher materials

      Skills Unit 1 Teacher Guide
      Yellow book cover titled "Skills 2: Teacher Guide" from Amplify CKLA. Features a large number "2," a frog, a knight, coins, phonetic symbols, and a moon.

      Teacher materials

      Skills Unit 2 Teacher Guide
      Yellow book cover titled "Skills 3 Teacher Guide" with illustrations of coins, a knight, a grasshopper, and phonetic symbols. Amplify CKLA logo at top.

      Teacher materials

      Skills Unit 3 Teacher Guide
      Illustration of two children posing with a bagpiper dressed in traditional Scottish attire; text below reads "Snap Shots.

      Teacher materials

      Skills Unit 1 Big Book
      Illustration of a family hugging under a tree, with a house in the background. The word "Gran" is at the top of the image.

      Teacher materials

      Skills Unit 2 Big Book
      Illustrated book cover titled "Fables" shows a fox sitting on a stump, reading aloud to a rabbit and a bird, surrounded by mushrooms and grass under tall trees.

      Teacher materials

      Skills Unit 3 Big Book
      Screenshot of a language learning webpage focusing on English consonants, including sounds such as /g/, /ch/, /j/, /v/, /s/, and /f/, displayed with example words and visual cues.

      Teacher materials

      Code Poster Set
      Cover of "Skills Spelling Cards" by Amplify CKLA, featuring a knight, frog, moon, and sound symbols on a yellow background.

      Teacher materials

      Spelling Card Set
      Orange card with "Amplify CKLA Grade 1" and "Skills Large Letter Cards." Features a moon, knight, frog, coins, and phonetic symbols.

      Teacher materials

      Large Letter Card Set
      Yellow book cover titled "Assessment Guide: Check-Point Assessments" with images of a knight, coins, a frog, and a planet. Text includes "Amplify CKLA" and "Skills.

      Teacher materials

      Skills Assessment Guide (Black Line Master)
      Book cover with a spider web in the foreground. A red house, animals, and trees are in the background. Title reads "The Moral of the Story: Fables and Tales.

      Teacher materials

      Knowledge 1 Teacher Guide
      Book cover titled "From Nose to Toes: How Your Body Works" featuring X-ray images of body parts.

      Teacher materials

      Knowledge 2 Teacher Guide
      Cover of "Common Threads: Different Lands, Similar Stories" by Amplify CKLA. Features illustrations of children sitting on a red mushroom and standing near a large flower.

      Teacher materials

      Knowledge 3 Teacher Guide
      Book cover titled "Reach for the Stars: Astronomy" featuring an astronaut, a spaceship, Earth, and Saturn in space. Part of the Amplify CKLA series, Grade 4, Unit 1, Teacher Guide.

      Teacher materials

      Knowledge 4 Teacher Guide
      Illustration of a rural scene with a red house, cow, cat, woman, muddy path, and a spider on a web. The text reads: "The Moral of the Story: Fables and Tales, Grade 1.

      Teacher materials

      Knowledge 1 Image Cards
      Educational book cover titled "From Nose to Toes: How Your Body Works" featuring X-ray images and illustrations of human anatomy.

      Teacher materials

      Knowledge 2 Image Cards
      Children exploring a whimsical forest scene with oversized mushrooms and a snail shell. Text on the cover reads "Common Threads: Different Lands, Similar Stories, Grade 1, Image Cards.

      Teacher materials

      Knowledge 3 Image Cards
      Illustrated cover of a Grade 1 astronomy book titled "Reach for the Stars," featuring a space scene with an astronaut, Earth, Saturn, and shooting stars.

      Teacher materials

      Knowledge 4 Image Cards
      Cover of "Activity Book: Volume 1" featuring coins, a knight, and a grasshopper on a yellow background with phonetic symbols and a globe.

      Student materials

      Skills 1–3 Activity Book
      Illustration of two children posing with a bagpiper. The background is filled with doodles, and "Snap Shots" is written at the bottom of the image.

      Student materials

      Skills Unit 1 Reader
      Illustration of a family hugging under a tree, with a house in the background. The word "Gran" is at the top of the image.

      Student materials

      Skills Unit 2 Reader
      Illustrated book cover titled "Fables" shows a fox sitting on a stump, reading aloud to a rabbit and a bird, surrounded by mushrooms and grass under tall trees.

      Student materials

      Skills Unit 3 Reader
      Yellow cover of an activity book titled "Amplify CKLA Grade 1" featuring images of a map, a child with a hat, a shuttle, and a forest path. "Knowledge" sections listed on the cover.

      Student materials

      Knowledge 1-4 Activity Book Sample
      Cover of "Skills 1" teacher guide from Amplify CKLA, featuring a large number 1, a crow, acorn, pencil, and glove clipart on a green background.

      Teacher materials

      Skills Unit 1 Teacher Guide
      Green book cover titled "Skills 2" with illustrations of a bird, acorn, pencil, mittens, and speech symbols. Includes "Amplify CKLA" and "Grade 2 - Teacher Guide" text.

      Teacher materials

      Skills Unit 2 Teacher Guide
      Green book cover titled "Skills 3" for Grade 2, featuring a large number 3, a crow, an acorn, a pencil, and a mitten.

      Teacher materials

      Skills Unit 3 Teacher Guide
      Vowels chart displaying various vowel sounds with example words in boxes on a green and white background.

      Teacher materials

      Code Posters
      Textbook cover titled "Skills Spelling Cards" with a green background, pencil, crow, acorn, mitten, and phonetic symbols. Banner reads "Amplify CKLA, Grade 2.

      Teacher materials

      Spelling Card Set
      Green book cover titled "Assessment Guide: Check-Point Assessments" with images of a crow, acorn, and pencil. Grade 2 is noted in the corner.

      Teacher materials

      Skills Assessment Guide (Black Line Master)
      Book cover titled "Fortunes and Feats: Fairy Tales and Tall Tales" shows a giant boot, train, waterfall, fisherman with a fish, and a person on a giant's hand.

      Teacher materials

      Knowledge 1 Teacher Guide
      Textbook cover reads "Amplify CKLA, Knowledge 2: The Birthplace of Democracy: Ancient Greece, Teacher Guide." Illustration depicts an ancient Greek scene with a building and people in togas.

      Teacher materials

      Knowledge 2 Teacher Guide
      Cover of "Legends and Heroes: Greek Myths" Teacher Guide, depicting classical Greek statues, ancient ruins, and mythological figures against a marble backdrop.

      Teacher materials

      Knowledge 3 Teacher Guide
      A book cover titled "Our Planet: Cycles in Nature," featuring a pond scene with a frog, lily pads, fish, and plants, labeled "Knowledge 4" and "Teacher Guide," by Amplify CKLA.

      Teacher materials

      Knowledge 4 Teacher Guide
      Illustration of ancient Greece with people under tents, classical buildings, columns, and a mountainous backdrop. Text on image reads: "The Birthplace of Democracy: Ancient Greece, Grade 2.

      Teacher materials

      Knowledge 2 Image Cards
      Cover of a book titled "Legends and Heroes: Greek Myths" featuring an ancient Greek statue, ruins, amphora, and flying birds against a sunset landscape. Grade 2 indicated.

      Teacher materials

      Knowledge 3 Image Cards
      Book cover for "Our Planet: Cycles in Nature" by Amplify CKLA, Grade 2. Features a pond with a frog, lily pads, and flowers. ISBN and barcode visible at the bottom.

      Teacher materials

      Knowledge 4 Image Cards
      Cover of a book titled "Amplify CKLA, Units 2-3, Activity Book." The green background features a crow, acorn, pencil, gloves, and phonetic symbols.

      Student materials

      Skills 1–3 Activity Book Sample
      Illustration of an anthropomorphic cat dressed as a cowboy, holding a bag of gold coins, standing beside a treasure chest. Text reads "The Cat Bandit.

      Student materials

      Skills Unit 1 Reader
      Illustration of a bearded man sitting on a bed, reading to a boy and girl. The book cover reads "Bedtime Tales" with a colorful, patterned background.

      Student materials

      Skills Unit 2 Reader
      Illustration of children engaging in outdoor sports activities, with text "Kids Excel" above them against a backdrop of trees and a bridge.

      Student materials

      Skills Unit 3 Reader
      Green cover of an activity book titled "Amplify CKLA," featuring a hot air balloon and a medieval castle illustration. Text includes various learning topics.

      Student materials

      Knowledge 1-4 Activity Book Sample
      Cover of a book titled "Classics Tales: Student Edition" from Amplify, featuring a cross-section of a tree with underground rooms and a scene above of a person walking.

      Teacher materials

      Unit 1 Teacher Guide
      The image shows the cover of a book titled "Fur, Fins, and Feathers: Animal Classification." It features illustrations of various animals and a pond surrounded by lush greenery.

      Teacher materials

      Unit 2 Teacher Guide
      Book cover of "Amplify CKLA Teacher Guide: Rhythm and Rhyme: Poetry Unit 3" featuring butterflies, lily pads, and flowers in a pond scene.

      Teacher materials

      Unit 3 Teacher Guide
      Illustration of Ancient Rome with people in togas, Colosseum, aqueduct, hills, and buildings. Text reads "Amplify CKLA, Unit 4, Rise and Fall: Ancient Rome, Teacher Guide.

      Teacher materials

      Unit 4 Teacher Guide
      Cover of Amplify CKLA Grade 3 unit titled "Timeless Tales: Classic Stories" showing a cross-section of underground animal homes and a rider on a horse above ground.

      Teacher materials

      Unit 1 Image Cards
      Cover of a poetry image cards book titled "Rhythm and Rhyme: Poetry," featuring butterflies and lily pads on a pond with a landscape background.

      Teacher materials

      Unit 3 Image Cards
      Cover image of a textbook titled "Rise and Fall: Ancient Rome" featuring the Colosseum and ancient Roman architecture with people in historical attire and distant hills.

      Teacher materials

      Unit 4 Image Cards
      Blue cover with geometric patterns, labeled "Amplify CKLA" at the top and "Spelling Cards" at the bottom, featuring a "Grade 3" badge.

      Teacher materials

      Spelling Card Set
      Cover of an Amplify CKLA Grade 3 Activity Book showing two units: "Classic Stories" with an underground scene, and "Animal Classification" with a pond scene.

      Student materials

      Unit 1–2 Activity Book
      Book cover of "Rhythm and Rhyme: Poetry," Unit 3, Grade 3, featuring a scenic illustration with a turtle, butterflies, lily pads, and flowers by a pond.

      Student materials

      Unit 3 Poet’s Journal
      Cover of "Amplify CKLA" Grade 3 Activity Book Unit 4, featuring an illustration of Ancient Rome, including the Colosseum and Roman structures against a painted sky background.

      Student materials

      Unit 4 Activity Book
      Book cover titled "Classic Stories" from Amplify CKLA. Illustrations show a cross-section of animals in underground homes and a landscape above with a tree, cyclist, and bridge.

      Student materials

      Unit 1 Reader
      Children's book cover titled "Unit 2: Rattenborough's Guide to Animals" featuring jungle scenery with various animals, including a monkey, jaguar, parrots, and a crocodile.

      Student materials

      Unit 2 Reader
      Illustrated book cover titled "Stories of Ancient Rome" by Amplify CKLA, featuring Roman architecture and people in ancient attire with hills and aqueducts in the background.

      Student materials

      Unit 4 Reader
      Blue book cover titled "Amplify CKLA Skills 1" featuring a large number 1, a deer, a slice of cake, a comb, and trophy icons.

      Teacher materials

      Skills Unit 1 Teacher Guide (supplemental)
      Blue "Skills 2" book cover with number 2, a deer, a comb, cakes, trophies, and phonetic symbols. Labeled "Amplify CKLA Teacher Guide.

      Teacher materials

      Skills Unit 2 Teacher Guide (supplemental)
      Blue "Skills Assessment Guide: Unit Assessments" book cover with geometric patterns, labeled "Amplify CKLA" Edition 3 in the top left corner.

      Teacher materials

      Skills Assessment Guide Black Line Master (supplemental)
      Blue book cover titled "Skills Activity Book: Volume 1" with images of a comb, trophies, cake, and a deer. It includes the Amplify CKLA logo at the top left corner.

      Student materials

      Skills Activity Book: Unit 1–2 Black Line Master (supplemental)
      Textbook cover titled "Personal Narratives" with spiral binding, featuring images of an accordion, bike, windmill, chocolate milkshake, and crayons. Angle of view shows part of a rotary phone.

      Teacher materials

      Unit 1 Teacher Guide
      Book cover featuring two knights on horses with flags, in a medieval setting. Title: "Medieval Knights and Castle Life: Europe’s Middle Ages.” Grade 4, Unit 2.

      Teacher materials

      Unit 2 Teacher Guide
      Amplify CKLA Grade 4 book cover titled "Meaning and Metaphor: Poetry" features an illustration of a bookshelf with colorful books, a tree, and mythical creatures.

      Teacher materials

      Unit 3 Teacher Guide
      Cover of "Amplify CKLA: Eureka! Student Inventor, Teacher Guide" featuring illustrated presenters at podiums, with a colorful wheel displaying various icons.

      Teacher materials

      Unit 4 Teacher Guide
      Cover of an activity book titled "Amplify CKLA," with images depicting "Personal Narratives" and "Europe's Middle Ages" against a meadow background. Grade 4 indicated at the top.

      Student materials

      Unit 1–2 Activity Book
      Book cover for "Meaning and Metaphor: Poetry" showing a tree, a book, and a horse silhouette, with colorful elements like leaves and stars on a bookshelf. Grade 4, Unit 3, Amplify CKLA.

      Student materials

      Unit 3 Poet’s Journal
      Cover of "Inventor's Notebook," Amplify CKLA, Grade 4, Unit 4. Features a green, spiral-bound notebook with a doodle on a colorful geometric background.

      Student materials

      Unit 4 Inventor’s Notebook
      Textbook cover titled "Personal Narratives" with spiral binding, featuring images of an accordion, bike, windmill, chocolate milkshake, and crayons. Angle of view shows part of a rotary phone.

      Student materials

      Unit 1 Reader
      Book cover featuring two knights on horses with flags, in a medieval setting. Title: "Medieval Knights and Castle Life: Europe’s Middle Ages.” Grade 4, Unit 2.

      Student materials

      Unit 2 Reader
      A book cover titled "Grade 4 Unit 4: Eureka! Files, Reader" with pencils and colorful tabs.

      Student materials

      Unit 4 Reader
      Cover of an educational book titled "In My Own Words: Personal Narratives" from Amplify CKLA. It features images of bicycles, a building in Washington D.C., and an old bus in Montgomery, AL.

      Teacher materials

      Unit 1 Teacher Guide
      Book cover featuring illustrations of ancient structures, landscapes, and plants with the title "Early Americas: Maya, Aztec, and Inca" on top.

      Teacher materials

      Unit 2 Teacher Guide
      Cover of "Amplify CKLA" Grade 5, Unit 3: Visions in Verse; Poetry. Features a colorful landscape with trees, birds, a pond, and flowers. Labeled as a Teacher Guide.

      Teacher materials

      Unit 3 Teacher Guide
      Illustration of Don Quixote on a horse, pointing at windmills in a field. Cover text reads, "A Knight's Tale: Don Quixote, Teacher Guide, Unit 4, Amplify CKLA.

      Teacher materials

      Unit 4 Teacher Guide
      Cover of the Amplify CKLA Grade 5 Activity Book featuring Unit 1, Personal Narratives, and Unit 2, Maya, Aztec, and Inca topics, against a blue background with marine imagery.

      Student materials

      Unit 1–2 Activity Book
      Book cover titled "Visions in Verse: Poetry" with birds, a snake, and varied fruit near a pond.

      Student materials

      Poet’s Journal
      Cover of "Don Quixote" activity book, featuring a circular illustration of Don Quixote tilting at windmills, with a blue background and marine-themed border.

      Student materials

      Unit 4 Activity Book
      Cover of "Personal Narratives" reader for Grade 5, featuring images of a bicycle, postcards from Miami, Montgomery bus, U.S. Capitol, and a space shuttle. Colorful stationery surrounds the book.

      Student materials

      Unit 1 Reader
      Textbook cover titled "Early Americas: Civilizations and Empires" with images of a pyramid, a landscape, and plants. Part of a Grade 5 curriculum by Amplify CKLA.

      Student materials

      Unit 2 Reader
      Cover of "Adventures of Don Quixote" shows a man in armor on a horse facing a windmill. It's labeled as a Dover Children's Thrift Classic, with easy-to-read type and by Argentine Palacios.

      Student materials

      Unit 4 Reader

      Access the Amplify CKLA all-in-one digital platform

      Teachers and students piloting CKLA 3rd Edition will receive login information to access the digital platform.

      If you have not received your login information please contact your administrative team. If you are in charge of licensing and enrollment for your school/district and have not received login information please reach out to your account representative or help@amplify.com.

      Contact us

      Contact your account executive to sign up for implementation training.

      A closer look at grades 6–8

      Amplify Science California is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

      In the 6–8 classroom, this looks like students:

      • Collecting evidence from a variety of sources.
      • Making sense of evidence in a variety of ways.
      • Formulating convincing scientific arguments.

      Is your school implementing the domain model? Click here.

      Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
      A four-step process diagram with icons: spark a real-world problem, explore sources, explain and elaborate, and evaluate claims, all linking to engage with cohesive storylines.

      Program structure

      Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

      It’s this proven program structure and lesson design that enables Amplify Science California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the California NGSS in fewer lessons than other programs.

      Scope and sequence

      Every year our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45-minutes, though teachers can expand or contract the timing to meet their needs.

      Chart displaying educational science topics for grades 6 to 8, categorized by grade level, duration in days, and number of classes. Includes subjects like microbiome, geology, and natural selection.

      Unit types

      Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

      In grades 6–8, there are three types of units:

      • One unit is a launch unit.
      • Three units are core units.
      • Two units are engineering internships.
      Launch units

      Launch units are the first units taught in each year of Amplify Science California. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to read actively in all subsequent units.

      Core units

      Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

      Engineering Internship units

      Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

      Units at a glance

      Abstract art with vibrant colors featuring a yellow silhouette of a person holding a book against a background of geometric shapes, swirling patterns, and bold textures.
      Microbiome

      Domain: Life Science

      Unit type: Launch

      Student role: Microbiological researchers

      Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.  

      Abstract artwork of a person's side profile with geometric shapes and colorful patterns flowing from the head, holding a small sledgehammer. A vision chart is visible in the corner.
      Metabolism

      Domain: Life Science

      Unit type: Core

      Student role: Medical researchers

      Phenomenon: Elisa, a young patient, feels tired all the time.  

      Download unit guide

      Orange abstract background with hexagonal shapes featuring icons of a bar chart, plant, safety vest, test tube, peach, and stethoscope.
      Metabolism Engineering Internship

      Domains: Life Science, Engineering Design

      Unit type: Engineering internship

      Student role: Food engineers

      Phenomenon: Designing health bars with different molecular compositions can effectively meet the metabolic needs of patients or rescue workers.  

      Imagen que muestra un gráfico de arañas de diferentes colores con patrones distintos de patas y cuerpo, incluidas variaciones de color marrón, amarillo y azul. El fondo es una superficie oscura y texturizada.
      Traits and Reproduction

      Domain: Life Science

      Unit type: Core

      Student role: Biomedical students

      Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.  

      Download unit guide

      Illustration of a person in a red hat and fur-lined coat with eyes closed, surrounded by large orange circles on a dark background.
      Thermal Energy

      Domain: Physical Science

      Unit type: Core

      Student role: Thermal scientists

      Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school. 

      Download unit guide

      Abstract artwork depicting a bright sun with blue and orange swirling patterns next to green hills under a sky with shades of blue, orange, and red.
      Ocean, Atmosphere, and Climate

      Domains: Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Climatologists

      Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.  

      An illustration from the Weather Patterns unit
      Weather Patterns

      Domains: Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Forensic meteorologists

      Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.  

      Download unit guide

      An illustration from the Earth's Changing Climate unit
      Earth’s Changing Climate

      Domains: Earth and Space Science, Life Science

      Unit type: Core

      Student role: Climatologists

      Phenomenon: The ice on Earth’s surface is melting.  

      Download unit guide

      Abstract geometric design in shades of blue and purple featuring a hexagon with icons of a building, wrench, molecules, sun, paint can, and screwdriver.
      Earth’s Changing Climate Engineering Internship

      Domains: Earth and Space Science, Engineering Design

      Unit type: Engineering internship

      Student role: Civil engineers

      Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.  

      A barren, rocky desert landscape with rover tracks leading to a distant vehicle on a hill under a hazy sky.
      Geology on Mars

      Domain: Earth and Space Science

      Unit type: Launch

      Student role: Planetary geologists

      Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable. 

      Two prehistoric reptiles with long snouts and tails are near the shore, one on land and one in water, with plants, rocks, and an island in the background.
      Plate Motion

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Geologists

      Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.  

      Download unit guide

      Geometric design featuring a telescope, mountain, sound waves, and cosmic elements on a purple hexagonal background.
      Plate Motion Engineering Internship

      Domains: Earth and Space Science, Engineering Design

      Unit type: Engineering internship

      Student role: Mechanical engineering interns

      Phenomenon: Patterns in earthquake data can be used to design an effective tsunami warning system.  

      Illustration of a cross-section of Earth showing a volcano near the ocean. Trees, mountains, and clouds are visible above, with subterranean layers below.
      Rock Transformations

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Geologists

      Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.  

      Download unit guide

      Ilustración que muestra las etapas de fusión de una paleta de naranja: entera, parcialmente derretida, más derretida y casi derretida por completo, con palitos de madera, sobre un fondo morado.
      Phase Change

      Domains: Physical Science, Earth and Space Science

      Unit type: Core

      Student role: Chemists

      Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart

      Download unit guide

      Green geometric background with a hexagonal emblem containing a parachute icon, ruler, bandage, and stacked layers on a gradient pattern.
      Force and Motion Engineering Internship

      Domains: Engineering Design, Physical Science

      Unit type: Engineering internship

      Student role: Mechanical engineering interns

      Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents.  

      An illustration from the Chemical Reactions unit
      Chemical Reactions

      Domains: Physical Science, Life Science, Earth and Space Science

      Unit type: Core

      Student role: Forensic chemists

      Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.  

      Download unit guide

      An illustration of a whale with jellyfish and turtles from Amplify Science
      Populations and Resources

      Domains: Life Science, Earth and Space Science

      Unit type: Core

      Student role: Biologists

      Phenomenon: The size of the moon jelly population in Glacier Sea has increased. 

      Download unit guide

      Low-poly landscape with trees and mushrooms. A fox sniffs the ground, a rabbit sits nearby, and mountains and sun are in the background.
      Matter and Energy in Ecosystems

      Domains: Life Science, Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Ecologists

      Phenomenon: The biodome ecosystem has collapsed.  

      Download unit guide

      Two people climbing rocky terrain; illustrations show a hiking boot and a belt with gear.
      Harnessing Human Energy

      Domains: Physical Science, Earth and Space Science, Engineering Design

      Unit type: Launch

      Student role: Energy scientists

      Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.  

      Illustration of a futuristic space station with large solar panels, orbiting in deep space, emitting a blue glow from its propulsion system.
      Force and Motion

      Domain: Physical Science

      Unit type: Core

      Student role: Physicists

      Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.

      Download unit guide

      Green geometric graphic featuring icons: a baby, thermometer, layers, medical alert, and a flame.
      Phase Change Engineering Internship

      Domains: Engineering Design, Physical Science

      Unit type: Engineering internship

      Student role: Chemical engineering interns

      Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature.  

      Illustration of a roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.
      Magnetic Fields

      Domain: Physical Science

      Unit type: Core

      Student role: Physicists

      Phenomenon: During a test launch, a spacecraft traveled much faster than expected.  

      An illustration from the Light Waves unit
      Light Waves

      Domains: Physical Science, Life Science, Earth and Space Science

      Unit type: Core

      Student role: Spectroscopists

      Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.

      Download unit guide

      A city skyline at night with a prominent full moon, stars in the sky, and a bridge silhouette on the left.
      Earth, Moon, and Sun

      Domains: Earth and Space Science, Physical Science

      Unit type: Core

      Student role: Astronomers

      Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.  

      Download unit guide

      Four low-poly dinosaurs with missing body sections are standing in a row; one is yellow, and the others are green. They have purple spikes and red patches on their bodies.
      Natural Selection

      Domains: Life Science, Earth and Space Science

      Unit type: Core

      Student role: Biologists

      Phenomenon: The newt population in Oregon State Park has become more poisonous over time.  

      Download unit guide

      Red geometric background with icons including a mosquito, DNA strand, bar chart, and world map inside a hexagon.
      Natural Selection Engineering Internship

      Domains: Engineering Design, Life Science

      Unit type: Engineering internship

      Student role: Clinical engineers

      Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development while helping malaria patients.  

      Two giant tortoises with long necks stand near water; one tortoise feeds on leaves from a tree while the other is near dense vegetation.
      Evolutionary History

      Domains: Life Science, Earth and Space Science

      Unit type: Core

      Student role: Paleontologists

      Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.    

      Download unit guide

      Resources

      Two middle school girls use a Student Investigation Notebook to take on the role of scientists and engineers

      Pilot support brochure for 6–8 (Integrated)

      See how we customized our instructional sequence to fully support the Utah SEEd…

      An illustration of a whale with jellyfish and turtles from Amplify Science

      Unit phenomena for 6–8

      Take a closer look at the unit phenomena featured in each grade level.

      A laptop screen displays a simulation about Earth's energy system, with surrounding images showing diagrams and energy flow models.

      Classroom Slides for 6–8

      Your new hands-free TG is coming soon! These PowerPoints for every lesson make t…

      A child wearing safety goggles closely examines an object through a magnifying glass in a classroom setting.

      What’s so phenomenal about phenomena?

      Learn actionable strategies that will help you implement 3-D teaching and learni…

      A student reviews a science textbook and looks at a laptop in a classroom, while other students work together on their science projects in the background.

      Active reading in 6–8

      Learn how we support students in learning how to interact with scientific texts….

      A young person wearing gloves looks through a microscope at a table with laboratory supplies, including bottles, slides, and a tray, against a plain blue background.

      Investigations for 6–8

      Explore the types of investigations that take place in middle school classrooms….

      A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

      Sims for 4–8

      Two students sit at desks writing in notebooks and using laptops in a classroom setting.

      Approaches to assessment in 6–8

      Learn about our middle school embedded assessments.

      A science education kit includes goggles, measuring cups, books on ecosystems and fuel burning, seeds, a jar, game pieces, and soil. Authored by The Lawrence Hall of Science.

      Program component list for 6–8 (Integrated)

      Explore the components that come with each unit.

      A closer look at grades 6–8 (domain)

      Amplify Science California is based on the latest research on teaching and learning and helps teachers deliver rigorous and riveting lessons through hands-on investigations, literacy-rich activities, and interactive digital tools that empower students to think, read, write, and argue like real scientists.

      In the 6–8 classroom, this looks like students:

      • Collecting evidence from a variety of sources.
      • Making sense of evidence in a variety of ways.
      • Formulating convincing scientific arguments.

      Is your school implementing the integrated model? Click here.

      Collage of four images showing children engaged in educational activities such as conducting experiments and crafting in a classroom setting.
      Graphic showing a research process with four steps: spark intrigue with a real-world problem, explore evidence, explain and elaborate, and evaluate claims, connected in a cycle with arrows.

      Program structure

      Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

      It’s this proven program structure and lesson design that enables Amplify Science California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 6–8 program to address 100% of the California NGSS in fewer lessons than other programs.

      Scope and sequence

      Every year of our grades 6–8 sequence consists of 9 units, with each unit containing 10–19 lessons. Lessons are written to last a minimum of 45 minutes, though teachers can expand or contract the timing to meet their needs.

      A grid of educational icons, each representing a different science topic, such as earth and space science, life science, and physical science, with titles and lesson counts.

      Unit types

      Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also serving a unique purpose.

      In grades 6–8, there are three types of units:

      • One unit is a launch unit.
      • Three units are core units.
      • Two units are engineering internships.
      Launch units

      Launch units are the first units taught in each year of Amplify Science California. The goal of the Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year, including argumentation, active reading, and using the program’s technology. For example, rather than taking the time to explain the process of active reading in every unit in a given year, it is explained thoroughly in the Launch unit, thereby preparing students to actively read in all subsequent units.

      Core units

      Core units establish the context of the unit by introducing students to a real-world problem. As students move through lessons in a Core unit, they figure out the unit’s anchoring phenomenon, gain an understanding of the unit’s disciplinary core ideas and science and engineering practices, and make linkages across topics through the crosscutting concepts. Each Core unit culminates with a Science Seminar and final writing activity.

      Engineering Internship units

      Engineering Internship units invite students to design solutions for real-world problems as interns for a fictional company called Futura. Students figure out how to help those in need, from tsunami victims in Sri Lanka to premature babies, through the application of engineering practices. In the process, they apply and deepen their learning from Core units.

      Units at a glance

      A barren, rocky desert landscape with rover tracks leading to a distant vehicle on a hill under a hazy sky.
      Geology on Mars

      Domain: Earth and Space Science

      Unit type: Launch

      Student role: Planetary geologists

      Phenomenon: Analyzing data about landforms on Mars can provide evidence that Mars may have once been habitable.    

      Two prehistoric reptiles with long snouts and tails are near the shore, one on land and one in water, with plants, rocks, and an island in the background.
      Plate Motion

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Geologists

      Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean, even though the Mesosaurus species once lived all together.    

      Download unit guide

      Geometric design featuring a telescope, mountain, sound waves, and cosmic elements on a purple hexagonal background.
      Plate Motion Engineering Internship

      Domain: Earth and Space Science

      Unit type: Engineering internship

      Student role: Mechanical engineering interns

      Phenomenon: Patterns in earthquake data can be used to design an effective tsunami warning system.    

      Illustration of a cross-section of Earth showing a volcano near the ocean. Trees, mountains, and clouds are visible above, with subterranean layers below.
      Rock Transformations

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Geologists

      Phenomenon: Rock samples from the Great Plains and from the Rocky Mountains — regions hundreds of miles apart — look very different, but have surprisingly similar mineral compositions.    

      Download unit guide

      A city skyline at night with a prominent full moon, stars in the sky, and a bridge silhouette on the left.
      Earth, Sun, and Moon

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Astronomers

      Phenomenon: An astrophotographer can only take pictures of specific features on the Moon at certain times.    

      Download unit guide

      Abstract artwork depicting a bright sun with blue and orange swirling patterns next to green hills under a sky with shades of blue, orange, and red.
      Ocean, Atmosphere, and Climate

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Climatologists

      Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.    

      Ilustración de un pueblo con casas, campos y montañas bajo un cielo nublado con olas de viento o lluvia.
      Weather Patterns

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Forensic meteorologists

      Phenomenon: In recent years, rainstorms in Galetown have been unusually severe.    

      Download unit guide

      Un oso polar se encuentra sobre un pequeño témpano de hielo en el océano con un sol naranja en el cielo y lejanas montañas heladas al fondo.
      Earth’s Changing Climate

      Domain: Earth and Space Science

      Unit type: Core

      Student role: Climatologists

      Phenomenon: The ice on Earth’s surface is melting.    

      Download unit guide

      Abstract geometric design in shades of blue and purple featuring a hexagon with icons of a building, wrench, molecules, sun, paint can, and screwdriver.
      Earth’s Changing Climate Engineering Internship

      Domain: Earth and Space Science

      Unit type: Engineering internship

      Student role: Civil engineers

      Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.    

      Abstract art with vibrant colors featuring a yellow silhouette of a person holding a book against a background of geometric shapes, swirling patterns, and bold textures.
      Microbiome

      Domain: Life Science

      Unit type: Launch

      Student role: Microbiological researchers

      Phenomenon: The presence of 100 trillion microorganisms living on and in the human body may keep the body healthy.    

      Abstract artwork of a person's side profile with geometric shapes and colorful patterns flowing from the head, holding a small sledgehammer. A vision chart is visible in the corner.
      Metabolism

      Domain: Life Science

      Unit type: Core

      Student role: Medical researchers

      Phenomenon: Elisa, a young patient, feels tired all the time.    

      Download unit guide

      Orange abstract background with hexagonal shapes featuring icons of a bar chart, plant, safety vest, test tube, peach, and stethoscope.
      Metabolism Engineering Internship

      Domain: Life Science

      Unit type: Engineering internship

      Student role: Food engineers

      Phenomenon: Designing health bars with different molecular compositions can effectively meet the metabolic needs of patients or rescue workers.    

      Imagen que muestra un gráfico de arañas de diferentes colores con patrones distintos de patas y cuerpo, incluidas variaciones de color marrón, amarillo y azul. El fondo es una superficie oscura y texturizada.
      Traits and Reproduction

      Domain: Life Science

      Unit type: Core

      Student role: Biomedical students

      Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.    

      Download unit guide

      An illustration of a whale with jellyfish and turtles from Amplify Science
      Populations and Resources

      Domain: Life Science

      Unit type: Core

      Student role: Biologists

      Phenomenon: The size of the moon jelly population in Glacier Sea has increased.    

      Download unit guide

      Low-poly landscape with trees and mushrooms. A fox sniffs the ground, a rabbit sits nearby, and mountains and sun are in the background.
      Matter and Energy in Ecosystems

      Domain: Life Science

      Unit type: Core

      Student role: Ecologists

      Phenomenon: What caused the mysterious crash of a biodome ecosystem?    

      Download unit guide

      Four low-poly dinosaurs with missing body sections are standing in a row; one is yellow, and the others are green. They have purple spikes and red patches on their bodies.
      Natural Selection

      Domain: Life Science

      Unit type: Core

      Student role: Biologists

      Phenomenon: The newt population in Oregon State Park has become more poisonous over time.    

      Download unit guide

      Red geometric background with icons including a mosquito, DNA strand, bar chart, and world map inside a hexagon.
      Natural Selection Engineering Internship

      Domain: Life Science

      Unit type: Engineering internship

      Student role: Clinical engineers

      Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development while helping malaria patients.  

      Two giant tortoises with long necks stand near water; one tortoise feeds on leaves from a tree while the other is near dense vegetation.
      Evolutionary History

      Domain: Life Science

      Unit type: Core

      Student role: Paleontologists

      Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.    

      Download unit guide

      Two people climbing rocky terrain; illustrations show a hiking boot and a belt with gear.
      Harnessing Human Energy

      Domain: Physical Science

      Unit type: Launch

      Student role: Energy scientists

      Phenomenon: Rescue workers can use their own human kinetic energy to power the electrical devices they use during rescue missions.    

      Illustration of a futuristic space station with large solar panels, orbiting in deep space, emitting a blue glow from its propulsion system.
      Force and Motion

      Domain: Physical Science

      Unit type: Core

      Student role: Physicists

      Phenomenon: The asteroid sample-collecting pod failed to dock at the space station as planned.    

      Download unit guide

      Green geometric background with a hexagonal emblem containing a parachute icon, ruler, bandage, and stacked layers on a gradient pattern.
      Force and Motion Engineering Internship

      Domain: Physical Science

      Unit type: Engineering internship

      Student role: Mechanical engineering interns

      Phenomenon: Designing emergency supply delivery pods with different structures can maintain the integrity of the supply pods and their contents. 

      Illustration of a roller coaster filled with people, hands raised, going down a steep track against a bright blue sky with clouds.
      Magnetic Fields

      Domain: Physical Science

      Unit type: Core

      Student role: Physicists

      Phenomenon: During a test launch, a spacecraft traveled much faster than expected.    

      Illustration of a person in a red hat and fur-lined coat with eyes closed, surrounded by large orange circles on a dark background.
      Thermal Energy

      Domain: Physical Science

      Unit type: Core

      Student role: Thermal scientists

      Phenomenon: One of two proposed heating systems for Riverdale School will best heat the school.    

      Download unit guide

      Ilustración que muestra las etapas de fusión de una paleta de naranja: entera, parcialmente derretida, más derretida y casi derretida por completo, con palitos de madera, sobre un fondo morado.
      Phase Change

      Domain: Physical Science

      Unit type: Core

      Student role: Chemists

      Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart.    

      Download unit guide

      Green geometric graphic featuring icons: a baby, thermometer, layers, medical alert, and a flame.
      Phase Change Engineering Internship

      Domain: Physical Science

      Unit type: Engineering internship

      Student role: Chemical engineering interns

      Phenomenon: Designing portable baby incubators with different combinations of phase change materials can keep babies at a healthy temperature.    

      Obra de arte digital abstracta que presenta numerosos círculos rojos y grises superpuestos sobre un fondo dividido de azul y violeta claro, creando una composición dinámica y enérgica.
      Chemical Reactions

      Domain: Physical Science

      Unit type: Core

      Student role: Forensic chemists

      Phenomenon: A mysterious brown substance has been detected in the tap water of Westfield.    

      Download unit guide

      An illustration from the Light Waves unit
      Light Waves

      Domain: Physical Science

      Unit type: Core

      Student role: Spectroscopists

      Phenomenon: The rate of skin cancer is higher in Australia than in other parts of the world.    

      Download unit guide

      Resources

      Pilot support brochure for 6–8 (Domain)

      See how we customized our instructional sequence to fully support the Utah SEEd…

      Unit phenomena for 6–8(Domain)

      Take a closer look at the unit phenomena featured in each grade level.

      What’s so phenomenal about phenomena?

      Learn actionable strategies that will help you implement 3-D teaching and learni…

      Un maestro se encuentra al frente de un salón de clases, explicando una lección que se muestra en una pantalla. Los estudiantes se sientan en sus escritorios y algunos levantan la mano.

      Planning Guide for grades 6–8 (Domain)

      Check out these tips for planning to teach.

      Active reading in 6–8

      Learn how we support students in learning how to interact with scientific texts….

      Investigations for 6–8(Domain)

      Explore the types of investigations that take place in middle school classrooms….

      A laptop screen displaying a map with three ecosystem options, each illustrated by different animal icons and accompanied by relevant data lists.

      Sims for 4–8

      Take a closer look at the digital simulations included at each grade level.

      Approaches to assessment in 6–8

      Learn about our middle school embedded assessments.

      Welcome, Jordan K-8 reviewers!

      To view this protected page, enter the password below:



      Resources for teachers: Bring the world to students with knowledge!

      The Science of Reading shows that literacy develops best on a foundation of knowledge. In other words, the more you know, the easier and faster you learn!

      The Amplify CKLA literacy curriculum intentionally builds students’ background and academic knowledge—along with comprehension strategies—that fuel their capacity to understand texts, answer questions, and grapple with ideas.

      Explore resources for teachers from educators across the country who are bringing Amplify CKLA Knowledge Domains to life in their classrooms!

      Children sit on a classroom rug, guided by the literacy curriculum, as a pirate character stands on a beach. Two cacti in a desert add to the scene, and two children interact at a table with resources for teachers.

      Kindergarten

      In kindergarten, students develop phonemic awareness with storybook characters like Zack and Ann Chang; draw a chart to identify different smells; learn about the Lenape, Wampanoag, and Lakota Sioux; and pay homage to classic nursery rhymes by jumping a candlestick.

      An illustration featuring a green, one-eyed character with a hat in front of a farm scene with fields, a barn, a bird, and a pig. A red book lies open on the ground, suggesting an engaging literacy curriculum that brings stories to life.

      Domain 1: Nursery Rhymes and Fables

      To celebrate the end of the Nursery Rhymes and Fables unit, students participated in a Nursery Rhyme Olympics.

      Credit: Kelly O’Connor, Huber Street Elementary School, NJ

      BONUS VIDEO: Watch this video to see Nursery Rhyme Olympics in action!

      Domain 2: The Five Senses

      As a special activity for the Five Senses unit, students explored their sense of taste with a pop-up farmers market.

      Credit: Debbie Braaten, Abraham Lincoln Elementary School, OH

      BONUS VIDEO: Hear how Jamie Vannoy, a teacher in Wirt County, WV, plans a braille activity for this unit!

      Domain 3: Stories

      Kindergarteners worked in groups to construct houses using straw, sticks, and bricks to commemorate the reading of “The Three Little Pigs.”

      Credit: Manal Abuhouran, Clarendon Elementary School, NJ

      Domain 4: Plants

      To apply their learning, students at Superior Elementary planted grass seeds at the beginning of the Plants unit, then cared for and observed the grass daily to ensure it flourished.

      Credit: Emma Fynbu, Superior Elementary School, NE

      Domain 5: Farms

      To celebrate the Farms unit, students visited a local farm to study the equipment and farm animals!

      Credit: Kirsten Tingley, Cumberland Valley School District, PA

      Domain 6: Native Americans

      To showcase their knowledge, students created a gallery walk that displays information about the Lakota Sioux, Wampanoag, and Lenape tribes.

      Credit: Dalphne Harrison, Aldine ISD, TX

      Domain 7: Kings and Queens

      To mark the end of the Kings and Queens unit, this class hosted a royal tea party in the cafeteria, featuring cloaks and handmade crowns.

      Credit: Chrystal Wise, Malvern School District, AR

      Domain 8: Seasons and Weather

      Teach your students more about seasons and weather: Invite your local meteorologist to visit, like this classroom did!

      Credit: Chrystal Wise, Malvern School District, AR

      Domain 9: Columbus and the Pilgrims

      Students create illustrations of Columbus’s journey to present their knowledge for this unit!

      Credit: Mandy Collins, Fayette County Public Schools, TN

      Domain 10: Colonial Towns and Townspeople

      As you wrap up this unit, take inspiration from this school: Make shop signs and tables to create your own colonial town!

      Credit: Andrea Gatten, Propel Schools, PA

      Domain 11: Taking Care of the Earth

      We love this culminating activity! Students create awareness for a cause by creating persuasive signs, videos, and a class petition. This multimedia display shows them embracing the values of environmental stewardship.

      Credit: Heather Keating, Gulliver Prep, FL

      Domain 12: Presidents and American Symbols

      To close the Presidents and American Symbols Domain, hold a sample election in your classroom! Create a voting booth, ballot box, ballot cards, election music, campaign posters, stickers, balloons, and confetti! Before announcing the winner, discuss the importance of voting, the voting process, what a campaign looks like, and what to look for in a great leader.

      Credit: Andrea Gatten, Propel Schools, PA

      Grade 1

      In Grade 1, students sing about a fabulous fox, learn to tell the difference between fairy tale heroes and villains, write an opinion statement about the worst part of going to the moon, and learn ancient Egyptian techniques for mummifying an apple.

      A person dressed as a pirate examines a large skull near a globe, reminiscent of resources for teachers planning an engaging activity. The background shows mountains and a body of water.

      Domain 1: Fables and Stories

      To celebrate the Fables and Stories domain, students participated in a “wolf in sheep’s clothing” race while teachers dressed as fable characters.

      Credit: Brittany Sachs, Monon Trail Elementary School, IN

      BONUS VIDEO: Hear how Brittany planned a Fable Olympics for her Grade 1 students!

      Domain 2: The Human Body

      To showcase their knowledge of the topic, students participated in a “hospital day.” The classroom was transformed to look like different operating rooms. Stations included blending and segmenting CVC words with Band-Aids, a Tricky Words eye exam, sentence writing, an X-ray light table, food sorting according to the food pyramid, and an operation game!

      Credit: Erin Chester, Thompson Crossing Elementary School, IN

      BONUS VIDEO: Erin explains how she planned the activity, and shows us snippets of the culminating activity in action.

      Domain 3: Different Lands, Similar Stories

      Take inspiration from this classroom and have your students create a Thumbelina floral craft to round out the unit’s celebration of folktales.

      Credit: Elizabeth Sillies, Three Rivers Local School District, OH

      Domain 4: Early World Civilizations

      Looking for a culminating activity for this domain? Plan an ancient Egypt day filled with crafts and activities, including pyramid-making, writing in hieroglyphics, trying Egyptian food, and mask-making.

      Credit: Camy Stirling, Brevard Academy, NC

      BONUS VIDEO: Watch this short video about how to make pyramid-making easy in your classroom!

      Domain 5: Early American Civilizations

      Students can apply their learning about early American civilizations by creating their very own Moctezuma headdresses.

      Credit: Emmett J. Hoops, Moriah Central School, NY

      Domain 6: Astronomy

      A surefire way to ignite your students’ excitement about astronomy is to create a moon phase Oreo chart!

      Credit: Shelby Varchmin, Fred Wild Elementary School, FL

      BONUS IDEA: Have your class send postcards to space through the Club for the Future program.

      Domain 7: The History of the Earth

      Students channeled their inner geologists during this unit and dug for rocks.

      Credit: Ronda Scott, Dixon Public Schools, IL

      Domain 8: Animals and Habitats

      Students can express their creativity by drawing animals, plants, and environments on rocks, then sorting by habitats or comparing by Venn diagram.

      BONUS: Check out these students’ creative and colorful dioramas that were showcased at the end of this unit!

      Credit: Christine Thomas, The School District of Palm Beach County, FL

      Domain 9: Fairy Tales

      To wrap up the Fairy Tales unit, sharpen your students’ drama skills by having them act out their favorite stories.

      Credit: Elizabeth Sillies, Three Rivers Local School District, OH

      Domain 10: A New Nation: American Independence

      Posters beautifully summarize the learning from a unit. Pair students up to create and present to their classmates!

      Credit: Tracy Hatch Gagnon, Holy Name Parish School, MA

      Domain 11: Frontier Explorers

      Students can celebrate this unit by hosting a Pioneer Day and making Daniel Boone hats!

      Credit: Shelby Varchmin, Fred Wild Elementary School, FL

      Grade 2

      In Grade 2, students thrill to the crimes of the Cat Bandit, assemble books about ancient Chinese culture, write their own Greek myths, and learn the story of the people who escaped to freedom from slavery by “follow[ing] the Drinking Gourd.”

      Cartoon wizard with a white beard and star-patterned hat holding a small dragon, standing in front of a house in a desert setting. A large feather quill, perfect for drafting a literacy curriculum, is in the foreground.

      Domain 1: Fairy Tales and Tall Tales

      To celebrate the end of the Fairy Tales and Stories Unit, encourage students to showcase their favorite stories by crafting paper collages and clay figures.

      Credit: Jessica Berg, Arlington Public Schools, VA

      Domain 2: Early Asian Civilizations

      Second-grade teachers worked together to create an amazing dragon at the end of their Early Asian Civilizations Unit. Each student created a scale for their grade-level dragon!

      Credit: Emma Bridgeforth, Windsor Elementary School, WI

      BONUS: This class at Windber Elementary, PA, celebrated this unit by hosting a Chinese New Year dragon parade.

      Domain 3: The Ancient Greek Civilization

      This class had a great time becoming world travelers and celebrating all the knowledge gained throughout the Ancient Greek Civilization domain. The students started their day getting their passport stamped. After entering ancient Greece, they engaged in many centers. They built the Parthenon and Athena’s throne, wrote facts about Sparta, created locks for Pandora’s box, built a harp for Apollo, and played vocabulary games. In addition to centers, the students learned that they all qualified for the Olympics, and were led by teachers on a victory walk as the entire school cheered for them!

      BONUS: Take inspiration from this Louisiana educator and plan a potato Olympics day with your students!

      Credit: Terri Hart, Jefferson Parish Public School District, LA

      Domain 4: Greek Myths

      Students wrote and shared their very own Greek myths, made props, and dressed in togas to celebrate this unit!

      Credit: Chelsey Steinmetz, Cornell Elementary School, WI

      Domain 5: The War of 1812

      Bring a battle to life by having students create boats out of foil and other common household materials to participate in a boat race!

      Credit: Jerica Falevai, Pacific Heritage Academy, UT

      Domain 6: Cycles in Nature

      To bring the Cycles in Nature unit to life, students learned how to make their own greenhouses and watched lima beans germinate and sprout.

      Credit: Amber Taylor, Corbin Primary School, KY

      Domain 7: Westward Expansion

      To commemorate the end of this domain, this class had two grandparents come to the classroom to bake bread, make trail mix, and pan for gold.

      BONUS: In another classroom, students made people, animals, and their very own pioneer wagons out of paper.

      Credit: Jennifer Murphy, John E. Bryan Elementary School, AL

      Domain 8: Insects

      These students celebrated all the knowledge they gained by researching and writing about an insect, then using household items to build a model of their chosen insect!

      Credit: Tamara Gore, Harrison Hill Elementary School, IN

      Domain 9: The U.S. Civil War

      Have your students showcase their knowledge of the U.S. Civil War by creating posters of important historical figures of the time!

      Credit: Heather Griffin, Rochester School District, NH

      Domain 10: The Human Body

      We love this culminating activity! Students made digestive-system models out of air-dry clay and traced themselves on large paper to make a life-size model of the body systems!

      Credit: Olga Cabrera, Aldine ISD, TX

      Domain 11: Immigration

      Students participated in an Ellis Island simulation in their classrooms at the end of the Immigration Unit, and even created their own passports!

      Credit: Sandra Garcia, Austin Independent School District, TX

      Domain 12: Fighting for a Cause

      To wrap up this unit and showcase their knowledge, students created VIP books about important historical figures!

      Credit: Meghan Scheffler, Community Unit School District 300, IL

      Grade 3

      In Grade 3, students write a newspaper story about the invention of the telephone, go on a digital quest with Viking explorers, reflect on the stars with astronomy lab notes, and learn the secret to writing an excellent narrative ending.

      Illustration of a person in ancient Roman attire with a large bird flying over a mountainous landscape, perfect for enhancing any literacy curriculum or activity plan. This image serves as an engaging resource for teachers to illustrate historical contexts vividly.

      Domain 1: Classic Tales: The Wind in the Willows

      To immerse themselves in the Classic Tales domain, students hosted a party inspired by classic literary celebrations.

      Credit: Laurie Valente, Secaucus Public School District, NJ

      Domain 2: Animal Classification

      A great way to shift perspective and get students to apply their knowledge? Transform your classroom into a vibrant “rainforest café” that showcases students’ published writing. Each student can create an informational piece about a specific vertebrate, learning how to introduce a topic, group related information, and support it with facts and details. They turn their writing, complete with text features, into restaurant-style menus! Dressed as rainforest and safari guides, students can present their work to other students and staff, answering questions about their animal and its classification.

      Credit: Nicole Desmond, Riverside School District 96, IL

      BONUS: To celebrate the Light and Sound unit as well as all units about animals in grades K–4, take a cue from Windber Elementary and plan an animal-themed glow show with your students!

      Domain 3: Human Body

      Get crafty in this unit by having students make body parts out of household supplies: a pipe cleaner becomes the spinal cord, noodles represent the vertebrae, and gummy Life Savers turn into cartilage. You can also make X-rays by tracing hands and wrists on construction paper. Students can color around the bones with a dark crayon, then use vegetable oil and a Q-tip to “paint” the bones. When held up to a light, the project resembles an X-ray!

      Credit: Crystal Chwatek, Muhlenberg Elementary Center, PA

      Domain 4: The Ancient Roman Civilization

      Have your students put their knowledge of ancient Roman civilization to the test: Challenge them to use packing peanuts to build iconic Roman landmarks.

      Credit: Melissa Vasquez, Eureka City Schools,CA

      Domain 5: Light and Sound

      To celebrate the Light and Sound unit, your students can make colorful suncatchers and witness the science of light and color in action.

      Credit: Stephanie Schuettpelz, Marion Elementary School, WI

      BONUS VIDEO: Watch how another teacher plans a black light party for this unit!

      Domain 6: The Viking Age

      CKLA students love Vikings! In this classroom, students made paper swords before participating in a special ceremony.

      Credit: Kerri Lintl, Merrimac Community School, WI

      Domain 7: Astronomy

      As a culminating activity for the Astronomy unit, an Oreo moon phase exercise really motivates students to apply their knowledge.

      Credit: Stephanie Schuettpelz, Marion Elementary School, WI

      Domain 8: Native Americans

      Flex your students’ creativity at the end of the Native Americans unit by having them gather natural materials and creating Native American shelters!

      Credit: Alisa Byrd Fesmire, Roane County Schools, TN

      BONUS VIDEO: Hear how a teacher in Wisconsin plans a basket-weaving activity for her students during this unit!

      Domain 9: Early Explorations of North America

      To help your students visualize North American exploration, they can draw maps of the studied expeditions and use yarn to show the various routes!

      Credit: Maria Woytko-Morris, Manitou Springs School District, CO

      Domain 10: Colonial America

      Take inspiration from this classroom and set up a colonial town where students can barter goods and work as apprentices at the general store, blacksmith, tailor shop, and cobbler shop.

      Credit: Heidi Graci, Sporting Hill Elementary School, PA

      Domain 11: Ecology

      For this unit, these students practiced their speaking and listening skills by presenting about an endangered animal to the rest of the class.

      Credit: Stephanie Schuettpelz, Marion Elementary School, WI

      Grade 4

      In Grade 4, students take part in a dramatic invention competition judged by Thomas Edison, George Washington Carver, and Hedy Lamarr; use writing to investigate the function of a mysterious contraption; become poets; and bring their reading skills to bear on the classic novel Treasure Island.

      Illustration of a woman holding architectural blueprints, standing in front of a medieval village landscape with scattered huts, fields, and a river. Two closed books titled "Resources for Teachers" float in the top right corner.

      Domain 1: Personal Narratives

      To celebrate the Personal Narratives domain, students created posters using information about their names.

      Credit: Daphne Long, Steele Elementary School, AL

      BONUS VIDEO: Hear how an educator in New York plans an engaging culminating activity for the Personal Narratives unit!

      Domain 2: Empires in the Middle Ages

      Flex your students’ creativity: Have them create their very own shields and write a paragraph describing them.

      Credit: Elisabeth Freligh, Spring Hill Elementary School, AK

      BONUS VIDEO: See how students in Minnesota participated in a stained glass art project to celebrate the Middle Ages.

      Domain 3: Poetry

      Empower students to apply their knowledge of this writing discipline with poetry journals.

      Credit: Elizabeth Sillies, Three Rivers Local School District, OH

      Domain 4: Eureka! Student Inventor

      Encourage students to showcase their innovation at an Invention Showcase! Here, they pitched their ideas using the slides they created and the models they made.

      Credit: Daniella Cucunato, Merchantville School District, NJ

      Domain 5: Geology

      Geology offers great opportunities to facilitate hands-on learning! Students can examine rocks and fossils, or bust geodes to supplement their lessons.

      Credit: Spring Choate, Overton County Schools, TN

      Domain 6: Contemporary Fiction

      Students can take their favorite stories off the page in this unit! For example, lead students in a craft activity creating their own house inspired by The House on Mango Street.

      Credit: Lara Andree, Aldine ISD, TX

      Domain 7: American Revolution

      Work a STEM activity into this Knowledge Domain by inviting students to recreate the Boston Tea Party with sticks and items of various weights.

      Credit: Maureen Elliott, West Irondequoit CSD, NY

      Domain 8: Treasure Island

      To celebrate the end of the Treasure Island domain collaboratively, students can build their very own map sections and put them together.

      Credit: Daphne Long, Steele Elementary, AL

      Grade 5

      In Grade 5, students learn about villanelles and Mayan codices, read and perform Shakespeare’s “A Midsummer Night’s Dream,” use their writing skills to teach a robot about human emotions, and solve a scientific mystery involving ancient fossils.

      A woman in a pink dress stands near an ancient pyramid with a night forest and river in the background, symbolizing the timeless resources for teachers that bridge history and nature.

      Domain 1: Personal Narratives

      Have your students refine their personal narratives into graphic stories to celebrate the end of this unit.

      Credit: Anna Barba, Arlington Traditional School, VA

      BONUS VIDEO: Hear how a teacher plans name posters for her students to wrap up this domain.

      Domain 2: Early American Civilizations

      To celebrate this unit, have your students create codices and Mayan mythical character sculptures using clay!

      Credit: Anita Trolese, TASIS Portugal

      Domain 3: Poetry

      Transform your classroom into a poetry café where students share their work with the rest of the class.

      Credit: K.D. Meucci, Bethel Park School District, PA

      Domain 4: Adventures of Don Quixote

      These students are an inspiration! To celebrate they reenacted scenes from Adventures of Don Quixote by choosing a chapter, summarizing its plot, writing scripts, and acting out their chapter for their classmates. They even chose their own backdrops and props to help embody the characters.

      Credit: Riley Montgomery, Hamilton Local School District, OH

      Domain 5: The Renaissance

      The arts and the Renaissance go hand in hand, so have your students get creative and create their own Leonardo da Vinci portraits.

      Credit: Windber Elementary, PA

      Domain 6: The Reformation

      Immerse your students in the Reformation era by having them make stamps and write out some text as a great way to mimic the effect of the printing press!

      Credit: Jessica Kingery, Jefferson City School District, MO

      Domain 7: A Midsummer Night’s Dream

      Turn your classroom into a theater for this unit and have your students read the play using character cards and donkey headbands.

      Credit: Daphne Long, Steele Elementary, AL

      Domain 8: Native Americans

      A successful extension project for the ​​Native Americans unit is personal totem poles! Have your students determine their own personal totems, write paragraphs to explain totem poles and why they selected their own personal totems, and use a template to create their own totem pole.

      Credit: Kristin Rea, Cicero School District 99, IL

      Domain 9: Chemical Matter

      A great way to bring knowledge to life in this unit? Make fossils out of clay molds!

      Credit: Teresa Karney, Reese Public Schools, MI

      Want to learn more about our Science of Reading literacy curriculum?

      A closer look at grades 3–5

      Amplify Science is based on the latest research on teaching and learning and helps teachers deliver age-appropriate, high-quality, literacy-rich instruction that enables students to take on the roles of scientists and engineers to solve real-world phenomena every day.

      In the 3–5 classroom, this looks like students:

      • Collecting evidence from a variety of sources.
      • Making sense of evidence in a variety of ways.
      • Formulating convincing scientific arguments.
      Collage of four educational activities: 1) drying a paper model with a hairdryer, 2) two girls observing a science experiment, 3) children making a mixture, 4) adult hand watering a plant in a clear container.
      Graphic showing a research process with four steps: spark intrigue with a real-world problem, explore evidence, explain and elaborate, and evaluate claims, connected in a cycle with arrows.

      Program structure

      Our cyclical lesson design ensures students receive multiple exposures to concepts through a variety of modalities. As they progress through the lessons within a unit, students build and deepen their understanding, increasing their ability to develop and refine complex explanations of the unit’s phenomenon.

      It’s this proven program structure and lesson design that enables Amplify Science California to teach less, but achieve more. Rather than asking teachers to wade through unnecessary content, we designed our 3–5 program to address 100% of the California NGSS in just 88 days.

      Scope and sequence

      Every year of our grades 3–5 sequence consists of 4 units and 88 lessons. Said another way, each unit contains 20 lessons plus two dedicated assessment days (a Pre-Unit Assessment and End-of-Unit Assessment).

      Lessons for grades 3–5 are written to last a minimum of 60 minutes, though teachers can expand or contract the timing to meet their needs.

      Educational curriculum chart showcasing a progression of amplify science lessons from kindergarten to grade 5, categorized by grade and subject areas like plants, animals, weather, and energy.

      Unit types

      Each unit delivers three-dimensional learning experiences and engages students in gathering evidence from a rich collection of sources, while also emphasizing a particular science and engineering practice.

      In grades 3–5:

      • One unit emphasizes the practice of investigation.
      • One unit emphasizes the practice of modeling.
      • One unit emphasizes the practice of engineering design.
      • One unit emphasizes the practice of argumentation.
      Investigation Units

      Investigation units focus on the process of strategically developing investigations and gathering data to answer questions. Students are first asked to consider questions about what happens in the natural world and why, and are then involved in designing and conducting investigations that produce data to help answer those questions.

      Modeling Units

      Modeling units provide extra support to students engaging in the practice of modeling. Students use physical models, investigate with computer models, and create their own diagrams to help them visualize what might be happening on the nanoscale.

      Engineering Design Units

      Engineering design units provide opportunities for students to solve complex problems by applying science principles to the design of functional solutions, and iteratively testing those solutions to determine how well they meet preset criteria.

      Argumentation units

      Argumentation units provide students with regular opportunities to explore and discuss available evidence, time and support to consider how evidence may be leveraged in support of claims, and independence that increases as they mount written arguments in support of their claims.

      Units at a glance

      Una ilustración de un tren de alta velocidad moderno y aerodinámico que viaja por una vía elevada con un paisaje verde de fondo.
      Balancing Forces

      Domain: Physical Science

      Unit type: Modeling

      Student role: Engineers

      Phenomenon: The town of Faraday is getting a new train that floats above its tracks.  

      Download unit guide

      Download lesson planner

      An illustration from the Inheritance and Traits unit
      Inheritance and Traits

      Domain: Life Science

      Unit type: Investigation

      Student role: Wildlife biologists

      Phenomenon: An adopted wolf in Graystone National Park (“Wolf 44”) has some traits that appear similar to one wolf pack in the park and other traits that appear to be similar to a different wolf pack. 

      Download unit guide

      Download lesson planner

      An illustration from the Environments and Survival unit
      Environments and Survival

      Domains: Life Science, Engineering Design

      Unit type: Engineering design

      Student role: Biomimicry engineers

      Phenomenon: Over the last 10 years, a population of grove snails has changed: The number of grove snails with yellow shells has decreased, while the number of snails with banded shells has increased.  

      Download unit guide

      Download lesson planner

      An illustration from the Weather and Climate unit
      Weather and Climate

      Domains: Earth and Space Science, Engineering Design

      Unit type: Argumentation

      Student role: Meteorologists

      Phenomenon: Three different islands, each a contender for becoming an Orangutan reserve, experience different weather patterns.  

      Download unit guide

      Download lesson planner

      An illustration from the Energy Conversions unit
      Energy Conversions

      Domains: Physical Science, Earth and Space Science, Engineering Design

      Unit type: Engineering design

      Student role: System engineers

      Phenomenon: The fictional town of Ergstown experiences frequent blackouts.  

      Download unit guide

      Download lesson planner

      An illustration from the Vision and Light unit
      Vision and Light

      Domain: Physical Science, Life Science, Engineering Design

      Unit type: Investigation

      Student role: Conservation biologists

      Phenomenon: The population of Tokay geckos in a rain forest in the Philippines has decreased since the installation of new highway lights.  

      Download unit guide

      Download lesson planner

      An illustration from the Earth's Features unit
      Earth’s Features

      Domain: Earth and Space Science

      Unit type: Argumentation

      Student role: Geologists

      Phenomenon: A mysterious fossil is discovered in a canyon within the fictional Desert Rocks National Park.  

      Download unit guide

      Download lesson planner

      An illustration from the Waves, Energy, and Information unit
      Waves, Energy, and Information

      Domains: Physical Science, Life Science, Earth and Space Science, Engineering Design

      Unit type: Modeling

      Student role: Marine scientists

      Phenomenon: Mother dolphins in the fictional Blue Bay National Park seem to be communicating with their calves when they are separated at a distance underwater.

      Download unit guide

      Download lesson planner

      An illustration from the Patterns of Earth and Sky unit
      Patterns of Earth and Sky

      Domains: Physical Science, Earth and Space Science

      Unit type: Investigation

      Student role: Astronomers

      Phenomenon: An ancient artifact depicts what we see in the sky at different times — the sun during the daytime and different stars during the nighttime — but it is missing a piece.  

      Download unit guide

      Download lesson planner

      An illustration from the Modeling Matter unit
      Modeling Matter

      Domain: Physical Science

      Unit type: Modeling

      Student role: Food scientists

      Phenomenon: Chromatography is a process for separating mixtures. Some solids dissolve in a salad dressing while others do not. Oil and vinegar appear to separate when mixed in a salad dressing.  

      Download unit guide

      Download lesson planner

      An illustration from the Earth System unit
      The Earth System

      Domains: Earth and Space Science, Physical Science, Engineering Design

      Unit type: Engineering Design

      Student role: Water resource engineers

      Phenomenon: East Ferris, a city on one side of the fictional Ferris Island, is experiencing a water shortage, while West Ferris is not.  

      Download unit guide

      Download lesson planner

      An illustration from the Ecosystem Restoration unit
      Ecosystem Restoration

      Domains:Physical Science, Life Science, Earth and Space Science, Engineering Design

      Unit type: Argumentation

      Student role: Ecologists

      Phenomenon: The jaguars, sloths, and cecropia trees in a reforested section of a Costa Rican rain forest are not growing and thriving.  

      Download unit guide

      Download lesson planner

      Resources

      Four students around a table engaged in a group science project in a classroom.

      Pilot support brochure for 3–5

      Unit phenomena for K–5

      Take a closer look at the elementary unit phenomena featured in each grade level.

      Educational material for grade 1, featuring a section about aquariums with an image of children observing jellyfish, and an introduction to forest habitats.

      Classroom Slides for K–5

      Classrooms Slides for elementary are now available! These customizable PowerPoin…

      Two children engaged in an animated conversation while sitting at a school desk with laptops and books.

      What’s so phenomenal about phenomena?

      Learn actionable strategies that will help you implement 3-D teaching and learni…

      A young boy and girl sitting in a classroom, reading a book together with focused expressions.

      Literacy-rich instruction in K–5

      Scientists don’t just get messy. They read and write with purpose too. Exp…

      Student Books in K–5

      Read a summary of each of our award-winning K–5 student books.

      Two children in safety goggles conducting a science experiment with liquids in a classroom.

      Investigations for K–5

      Explore the types of investigations that take place in elementary classrooms.

      Earth's Features digital simulation

      Sims for 4–8

      Pilot support brochure for 3–5

      Four-step educational infographic depicting problem-solving process: engaging with real-world problems, exploring multiple sources, constructing explanations, and applying knowledge to new problems.

      The 5E model in K–8

      Learn how the 5E elements are woven throughout each and every unit.

      Two middle school girls conduct a science experiment

      The CER model in K-5

      Learn how we integrate the Science and Engineering Practices (SEPs) into daily i…

      A science teacher stands at the front of a classroom speaking, while several students sitting at desks raise their hands to participate. A lesson is displayed on the screen behind her.

      Approaches to assessment in K–5

      Learn about our embedded assessments.

      Science activity kit featuring books "Earthworms Underground" and "What's Going On with the Weather?", balloons, plant seeds, propellers, and other educational materials.

      Program component list for TK–5

      Explore the components that come with each unit.

      Montana 6–8 Science

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      Peoria 6–8 Science Review

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      Sweetwater 6–8 Science

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      Amplify Desmos Math updates are coming!

      As we look ahead to the upcoming school year, we’re continuing to enhance Amplify Demos Math. From time-saving platform enhancements to new features, these updates are designed to help you deliver engaging math instruction while making planning, assigning, and differentiation easier than ever.

      Whether you’re using Amplify Desmos Math on its own or alongside Personalized Learning, Boost Math®, or mCLASS® Math, this page highlights what’s already available and what’s coming next.

      Two children place number and variable tiles on a balance scale, surrounded by math symbols, a protractor, floating balloons, and the engaging world of Amplify Desmos Math.

      Updates coming for the 2026–27 school year

      To help you plan for the year ahead with confidence, we’re previewing some of the exciting enhancements coming your way.

      Platform updates

      We’re improving the overall classroom experience with platform enhancements that make lessons easier to navigate and instruction easier to manage.

      • Activity pages are being redesigned to feature a left sidebar, informational tabs, and lesson screens at the top of the page. This optional reconfiguration will allow you to immediately see each lesson and more easily access relevant resources and tools. You will be able to turn on the new design – or turn it off to return to the original design – with a toggle located on the page.
      • We’re making updates to our Recently Visited section on Educator Home. You’ll see both activity and units reflected there, and have the ability to star a unit or lesson to pin it to the front of your list
      • Presentation tools are also expanding, making it easier to facilitate lessons, annotate in real time, and manage instruction from anywhere in the room.
      • You will be able to assign Teacher Presentation Screens to individual students who need access on their own devices for reference or accessibility purposes.

      Administrator Report improvements

      • The existing Administrator Reports for Unit Performance will be replaced with a new and improved Student Performance report that will provide school and district administrators with aggregated views of student performance on end-of-unit assessments as well as standards. The report will support grouping this data by school and class without having to access reporting for individual classrooms.

      AI-powered teacher tools

      We’ve developed new tools to enhance your ability to connect and collaborate with families! These will be available when you opt in through Amplify Labs.

      • Discussion Moments, launching for grades 6–8 in 2026–27, will support rich classroom conversations by highlighting student ideas directly within lessons, making it easier to pause, reflect, and discuss mathematical thinking.
      • Newsletter Generator, for grades K–5, allows you to create your own customizable communication to share out with families. 

      Using mCLASS Math? Explore upcoming updates and noteworthy features for assessment, progress monitoring, and reporting on the mCLASS Math Program Highlights page.

      A laptop screen shows a Spanish math lesson on place value. Behind the laptop sit four colorful educational booklets labeled Amplify Desmos Math, Grade 5, supporting engaging and interactive learning.

      New offerings

      Amplify Desmos Math continues to grow to support more learners across grade levels and instructional pathways.

      • Expanded Spanish student and teacher materials will better serve multilingual classrooms by providing access to high-quality math instruction in both print and digital formats.
      • New PreK and Transitional Kindergarten offerings emphasize hands-on, developmentally appropriate learning.
      • For middle school, Accelerated 6 and Accelerated 7 will be available for full release soon, offering a two-year pathway that condenses grades 6–8.
      • At the high school level, Amplify Desmos Math will soon be commercially available as complete high school course sequences, including Algebra 1, Geometry, Algebra 2, and Integrated Math pathways.

      Note: Some offerings and enhancements may require an additional purchase.

      Noteworthy features

      These features are already available or rolling out soon to help you plan, teach, and support students more efficiently.

      Screenshot of an online class dashboard for Amplify Desmos Math, featuring filters for programs, classes, and students, plus options to go to a lesson or dashboard.
      • Use Stream filtering tools to search by student name and quickly view everything assigned to a particular learner.
      • Assign work to individual students, create and reuse named groups, or assign multiple Personalized Learning activities at once using batch assign, making it easier to differentiate instruction and support small groups without extra setup time.
      • Preview student work directly from the Stream to check progress and decide on next steps more efficiently.
      • Individual Student Reports provide a unified view of student progress across math products, offering a clear, shareable snapshot to support caregiver communication and student conferencing. 
      • Download and print screens of any lesson or activity by selecting the three-dot menu to the right of the activity (or lesson) title and selecting View PDF. 
      A completion screen in Amplify Desmos Math displays a target with an arrow and star, a “Let’s Celebrate!” banner, and a message about practicing counting groups of 11-20 objects. A blue Done button is highlighted.

      Personalized Learning activities are now clearer and easier for students to manage.

      Personalized Learning activities now include a clear Done button, helping students understand when their work is complete.

      • Once an activity is finished, it moves out of the To Do list and into Past Work, reducing confusion and supporting student organization.
      • You also have improved visibility and guidance for addressing unfinished work, redoing activities, and when Personalized Learning data appears in reporting.
      A computer screen displays the "Browse by Core Program" page for Boost Math, listing various math curriculum scope and sequence resources, including Amplify Desmos Math.

      Easier planning and navigation across resources

      Planning instruction is simpler with an improved Browse Instructional Resources experience designed to reduce clicks and help you quickly find the materials you need.

      • Locate resources more easily for small-group instruction, practice, or extension.
      • Get more control over the student experience, including the option to remove Math Adventures from Student Home when those activities aren’t part of their instructional plan.

      Using Boost Math as part of your math solution? Learn more about recent enhancements to Boost Math, including updates to instructional pathways and more options to further the impact of your Multi-Tiered System of Supports (MTSS).

      Winter Wrap-Up 01: Problem-solving and facilitating classroom discussions

      Promotional graphic for Math Teacher Lounge podcast, episode 1, featuring Fawn Nguyen, Christy Thompson, and Kassia Omohundro Wedekind discussing classroom problem-solving and discussions.

      As we prep for an exciting new season of Math Teacher Lounge: The Podcast, hosts Bethany Lockhart Johnson and Dan Meyer are looking back at the amazing speakers and conversations from past episodes and sharing some of their favorites!

      First up: A season 2 double feature of the power of problem-solving with Fawn Nguyen and Facilitating Classroom Discussions with authors Christy Hermann Thompson and Kassia Omohundro Wedekind.

      Fawn is a specialist on Amplify’s advanced math team and a former math teacher and math coach—so she knows her stuff! You’ll hear about her five criteria for good problem-solving problems, and the power and importance of exposing all students to problem-solving.

      Then, we’ll move into Bethany and Dan’s conversation with Christy and Kassia to learn how hands-down conversations allow students to become better listeners and the steps you can take to implement hands-down conversations in your classroom.

      Explore more from Math Teacher Lounge by visiting our main page.

      Download Transcript

      Dan Meyer: (00:01)

      Hey folks. Welcome back to Math Teacher Lounge. My name is Dan Meyer.

      Bethany Lockhart Johnson: (00:03)

      And I’m Bethany Lockhart Johnson. Hello! Happy New Year! Hello, Dan Meyer.

      Dan Meyer: (00:09)

      HNY, Bethany. HNY to you and to all of the listeners out there in Math Teacher Lounge. HNY is the abbreviation that I use sometimes.

      Bethany Lockhart Johnson: (00:18)

      Oh, is that what that is? Is that—I wasn’t sure what that was. If on my birthday you send me HBD…no.

      Dan Meyer: (00:25)

      Yeah.

      Bethany Lockhart Johnson: (00:25)

      No. Unacceptable.

      Dan Meyer: (00:27)

      I will. No, you want the full thing. To demonstrate my care for your birthday, I gotta spell the whole thing out. I’m just trying to stay relevant. You know, I’m just trying to stay relevant and youthful. So I’m using The Abreevs.

      Bethany Lockhart Johnson: (00:38)

      The Brevvies.

      Dan Meyer: (00:40)

      To the extent of even abbreviating the word “abbreviation.” . So, any New Year’s resolutions you wanna share with the listeners, Bethany? While you think, I’ll just share mine real quick here. This is the year of the perfect Wordle streak for yours truly, Dan Meyer. I’m going the full 365. Watch. Watch me do it, folks. I’m naming it here. Live on air. recorded on air. Perfect Wordle year. What you got for the listeners, Bethany?

      Bethany Lockhart Johnson: (01:10)

      Let’s see. It’s raining very hard here in Southern California, and my newest resolution is to embrace nature. My child wants nothing more than to go and splash in all the puddles.

      Dan Meyer: (01:22)

      Nice.

      Bethany Lockhart Johnson: (01:23)

      And be amongst the mud. And what I’m gonna keep telling myself—and so far, so far, I’ve been doing pretty good with this—thrive, child. Splash. Squish. We can dry you off. You will not melt. So I want to keep finding opportunities. Like, for instance, my response is, “It’s pouring rain. Let’s stay under covers and let’s read this book together!” And his response is like, banging on the windows, like, “Please let me go outside.” So I myself have some rain boots. I’m going to go forth and splash with my child. So hopefully you’ll see me doing that a bit more.

      Dan Meyer: (02:08)

      Love that.

      Bethany Lockhart Johnson: (02:09)

      Ask me what I’m doing. I’m outside, splashing in nature.

      Dan Meyer: (02:12)

      I don’t wanna put words in your mouth, but I have felt a bit like parenting is a means for rounding out aspects of my own personality that I have felt are—or habits or hobbies that are lacking. Like, I’ve never been real outdoorsy or into camping, but I don’t want that to limit my own kids’ aspirations or interests. So let’s do the thing that’s not super natural for me, for their own sake. Which is kind of what I’m hearing a little bit from you, which—that sounds exciting.

      Bethany Lockhart Johnson: (02:35)

      Do you wanna go camping together? Like, our families?

      Dan Meyer: (02:38)

      Uhhh. Let’s take this one off the air. I also love something that’s more relevant to a teachers audience that you said, that I think is super interesting, is how there’s ways that we can make the jobs harder for ourselves, that are optional. And what I hear from you is like, “I’m just not gonna freak out. We’re getting wet. We’re getting soggy. And I’m just not gonna freak out.” And I just think that that’s interesting to think about, the things that we take on, you know, that’s optional. Freaking out is optional, sometimes. And there’s other areas, I think, for parenting or for teaching, where it’s like, “Oh, do I really need to choose this particular battle?” And to reconsider that.

      Bethany Lockhart Johnson: (03:19)

      And in that spirit, our whole Wordle episode that we talked about? Do you remember you talked about how beautiful Wordle mistakes are, and how you keep learning from mistakes? I mean, you obviously want the final correct answer, but just, you know, when you get on a losing streak, Dan, I hope you’ll continue to pat yourself on the back.

      Dan Meyer: (03:38)

      Well, I will not be taking on a losing streak, or even lose one day. This is what’s gonna happen here. I’m just speaking that and putting it out in the universe.

      Bethany Lockhart Johnson: (03:49)

      Speak it!

      Dan Meyer: (03:50)

      But if it happens, I will be taking a long break from all human interaction. And lamenting, as I do.

      Bethany Lockhart Johnson: (03:59)

      Camping. Dan’s off in the woods, weeping.

      Dan Meyer: (04:01)

      That’s right. That’s right. Yeah. Well, we wanna share with you folks—an exciting programming note is that we are currently working very hard on producing a special fifth season of this podcast. You thought the other seasons were special? Let me tell you, this fifth season gives new meaning to the word “special.” And we can’t wait to tell you more about that. But in the meantime, Bethany, you wanna tell ’em what we’re up to in the meantime?

      Bethany Lockhart Johnson: (04:26)

      Well, Dan and I went back and we were having a conversation about some of our most favorite conversations, or the conversations that people bring up to us. Like, when we were at the CMC conference, or NCTM, folks, when we talk about the podcast, they’re like, “Oh, I loved this one.” “Oh, I love this one.” And that, to me, I don’t know, that is exciting. And so, while we’re putting together this new season over these next few weeks, we’re gonna feature a few of our favorite conversations from our first four seasons. Dan, four seasons!

      Dan Meyer: (04:59)

      We’ve been at this for four seasons! And I do want to just emphasize something you said, Bethany: that all of our conversations are our favorite conversations. They’re all our special children. What we just felt like you, the listeners, did not quite learn enough from some of these, and so we really needed you to hear them again to make sure you got everything that you should get out of them. So, let’s tell ’em who’s up first. And who’s up first is a conversation we had about problem-solving with Fawn Nguyen, who’s an advanced math team specialist here at Amplify. Been a former math coach, math teacher. Just really done the work, is what I’d say about Fawn.

      Bethany Lockhart Johnson: (05:38)

      If you have been listening to this podcast, you’re like, “Whoa, whoa. Wait, I have not missed an episode. I didn’t hear Fawn’s interview.” That is because we used to be video only, not podcasts. So this conversation with Fawn was from, what, our second season?

      Dan Meyer: (05:55)

      Yeah.

      Bethany Lockhart Johnson: (05:56)

      And we were on video. And another thing about it is it was, this is a conversation that, when folks talk about problem-solving, a lot of the responses we’ve gotten are like, “Wait, I’ve never thought of problem-solving this way.” In fact, you’ll hear us say that exact thing . So we really appreciated the time with Fawn. And yeah.

      Dan Meyer: (06:17)

      Enjoy it, folks. Especially enjoy Fawn’s—I think a four-part?—definition of problem-solving, a word that’s often kind of mushily defined. And Fawn really goes into, I think, precision and depth on it. So hope you folks enjoy it.

      Dan Meyer: (06:35)

      Give a wave, Fawn, to the camera. Would you? Cool. Fawn has been a teacher for a very long time. She is someone who could have left the classroom at any point and taken any number of jobs in the math-teaching universe. But I’ve always admired that Fawn has taught kids for a very long time, and that has given her, in my view, just a lot of clarity on what is important to her about students. I’ve seen her not get upset or obsessed with certain kinds of small niche issues that a lot of us, like, they get a lot of us down in the classroom, sometimes. And she’s maintained a laser focus on among many other things, problem-solving as a virtue in mathematics classrooms. So, please welcome Fawn to our show. Fawn, thanks so much for being here.

      Fawn Nguyen: (07:18)

      Hey, thank you so much. Thank you. I am so excited and honored that you guys invited me for this, Bethany and Dan.

      Bethany Lockhart Johnson: (07:24)

      Thank you for being here.

      Fawn Nguyen: (07:26)

      I love you, Bethany. Dan, I can tolerate, but I love you.

      Dan Meyer: (07:30)

      I really worked myself up there on that complimentary opening for you, and that’s how you get me back, here? OK. Problem-solving is fully on the consciousness of math teachers. Every math teacher knows that they need to say, like, “Yeah, oh, problem-solving. Yes. Love it. Do it. I dig it.” But even so, I feel like it’s become kind of a buzzword. Like, it’s not always obvious what that means…or am I doing problem-solving, really? So we’re curious: As someone who is a problem-solving expert, who is asked all over the world to talk about problem-solving: How do I know if I’m doing problem-solving in my classroom?

      Fawn Nguyen: (08:12)

      This is not my definition of it, but—nor am I an expert, by the way, Dan, thank you! but I try really, really hard and work on it!—my definition—or it’s not my definition, but I like it because it’s short and honest—is “problem-solving is what we do when we don’t know what to do.” And so—

      Bethany Lockhart Johnson: (08:32)

      Ooh!

      Fawn Nguyen: (08:32)

      —with that mind-frame, I’m hoping teachers think more about what they task. Because I think it gets mislabeled a lot, as to what is problem-solving. If the kids already know what to do, there’s a solution path. Then it’s not problem-solving.

      Dan Meyer: (08:48)

      Yeah. So what are examples then? An example of, like, I might call something problem-solving, but it it fails that particular definition that you just proposed there. Very short, very honest definition.

      Fawn Nguyen: (08:59)

      Just, it needs to have constraint and contradiction to what the kids think naturally. It should come as a surprise. There’s an element of surprise in it. There’s tension.

      Dan Meyer: (09:11)

      Maybe if there’s harder numbers or, you know, decimals or fractions in the same kind of procedure…I can feel myself thinking, “Yeah, this is hard. This is problem-solving. Problem-solving equals hard. But we already know what to do.”

      Fawn Nguyen: (09:27)

      Or just word problems. That’s the most common thing. As soon as it just has words attached to the math, it becomes problem-solving. But that’s just coding it to me. That’s just coding it with words, wrapping it around. It doesn’t mean anything until we read through and see if there’s true problem-solving in it.

      Bethany Lockhart Johnson: (09:45)

      Like, what’s the moment that it becomes problem-solving? In the way that you envision it?

      Fawn Nguyen: (09:53)

      Well, I think there’s the bigger problem-solving of really bringing a task…I wanna call it left field. It just—we rarely ever, if ever, see it in the regular coursework, but it can also be problem-solving if we just take what we expect the children to do at the end of the unit, how about we front-load that? To me, that’s also problem-solving. And I’m trying to encourage teachers to do that last problem first. The task writers put more thought—not that they don’t do the rest of it!—but you know, this is a special one, because they label it “challenge,” or “enrichment,” or “are you ready for more?” I’ve seen those. And so it is this really special problem. And I would love for us to think about “do that first.” Because my biggest fear is that because it comes at the end, that not all the children are involved. And so that to me is the saddest part. Because we might not get to it, right? In mathematics, we always think, “OK, well, let’s do these problems and then we don’t have time for the rest.” But I think that’s your richest task right there, is at the very end. So why don’t we front-load it, start it, and it’s OK—of course it’s OK!—that we don’t all get it. But the exposure to all students is so important. Talk about, you know, equity. Talk about that, everybody gets the same thing. If everyone dug into that first one with everybody’s collaboration, and we get to share that, and then we leave it, because “Yeah, OK, now we learn more of the other stuff, right? That hopefully support. And then we can go back. And now everybody had a chance to go get into it, and then we can come back to it as, as many problems, we need to go back to it.”

      Bethany Lockhart Johnson: (11:37)

      And that feels so powerful. Because it feels like—as a teacher, I’m thinking it would also inform my work, how I approach the unit, and how I approach the next steps. Right? Like, what kind of work would we be doing if I let it, if I allow it, to change the way that I approach the unit.

      Dan Meyer: (11:58)

      Yeah. What you’re describing is so powerful, and really asks a lot of the task designers as well, I think. There are problem-solving tasks that really require, like, abstract knowledge of the way formulas and variables fit together. And what I love about what Amplify is doing with their problem-solving, what you’re helping them do, is that they start with a true low floor that can draw in every student. And they might get stuck at different places; that’s fine. But everyone has a way in. That’s exciting.

      Fawn Nguyen: (12:24)

      It’s a big deal for me to have this opportunity and this trust, to integrate problem-solving into the curriculum, make it intentional. It’s difficult to implement. It is, to be honest. Because for me, what is a good task? This makes one of my four criteria: One is, it is non-routine. It is simply stated. Simply stated—that’s like your low floor. And then has multiple solutions. And the fourth: This makes it. Because that the teacher enjoys solving it. And so you have to enjoy solving it to bring it. Because so that way I can say to my kids, “This is my gift.” It really is, Because, you know, it has so much fun and joy. And I appreciate the struggle. And I wanna illustrate an example. For example, let’s say Dan and I are classmates. And I know that Dan gets A’s on his tests and the lowest score he ever got was an 89%. I, on the other hand, just sitting right next to him, I average D. I have a D average on everything. While Bethany, our amazing and wonderful teacher, brings in a problem. And when she brings it in, she says, “I worked on this problem. I found this problem; I worked on it; and I struggled with it. And it was amazing. I enjoyed it so much, I’m sharing it with you.” And all of a sudden it’s like, “OK!” And I”m sitting there, right? My teacher loves this problem so much; she’s bringing it in to share with us. And now, all of a sudden, it’s not, you know…and I know she only gives us non-routine. When she talks about problem-solving, it’s non-routine. So it’s not directly tied to the textbook that I’ve been struggling with. So it gives me a chance, it gives me a chance to contribute. To think differently. And now, suddenly I look forward to working with Dan, because in this space, in this problem-solving space, Dan is no longer Mr. Know-It-All. And so that’s what I mean by—I am saying this a hundred times, and I will not stop saying it—problem-solving levels the playing field. Our world is filled with unsolved problems. Are you kidding me? Right? We look around us, we have so many things that are not solvable, or people are working on it, and yet in mathematics, what happens? The bell rings; we start; and we solve everything during that time, and we leave. And that’s…yeah. No! No! We need to wrestle with problems.

      Dan Meyer: (15:04)

      And that was our conversation with Fawn Nguyen, which we first released way back in November, 2021. You folks can follow Fawn on Twitter at Fawn P Nguyen. Um, that’s @ F A W N P N G U Y E N.

      Bethany Lockhart Johnson: (15:18)

      So our episode today is a double feature. We are featuring another conversation that we loved from Season Two. This is a conversation with Christy Hermann Thompson and Kassia Omohundro Wedekind. They’re authors of the book, “Hands Down, Speak Out: Listening and Talking Across Literacy and Math.” And I don’t know if you remember, but not only did we have a conversation with them, but we did a whole book study on Facebook, a Facebook Live book study, over the course of several months. And it was one of my most favorite things. And then they did a webinar at the end. So our conversation with them on the podcast for me felt like such a beautiful dive into their book. And you know, I’ve said it before, you think you have something down in the classroom, you’re like, “Oh, hand-raising, I’ve got that down.” You think you have it down, but then somebody says, “OK, but have you ever considered thiiiis?” You know, and it just—

      Dan Meyer: (16:17)

      NOT that??

      Bethany Lockhart Johnson: (16:18)

      , Not that? Something totally different? And I loved talking with them. They’re a lot of fun. And I loved the book.

      Dan Meyer: (16:23)

      Wonderful conversation, great book. Very provocative ideas. Yeah. As someone who’s like, “OK, classroom management, I gotta get the hand-raising going…”. In the classroom before we talked, they offered a really potent challenge to some really standard classroom management ideas. Yeah. Loved it.

      Bethany Lockhart Johnson: (16:40)

      And this conversation also offers some really practical tips for facilitating student conversations. So we think you’ll enjoy it. Here’s our conversation with Christy and Kassia.

      Bethany Lockhart Johnson: (16:53)

      So today we are talking about “Hands Down, Speak Out: Listening and Talking Across Literacy and Math, K—5.” And we have the authors here, Kassia Omohundro Wedekind and Christy Hermann Thompson. Before we begin, let’s define what a hands-down conversation is. A hands-down conversation is just another way to structure discourse in your classroom. So in a typical classroom, you might see students raising their hand and waiting on a teacher to call on them before they share their ideas or engage in discussion. But in a hands-down conversation, it’s students’ ideas and voices that are taking the lead, and teachers are stepping back and focusing on listening and facilitating. Hello! Welcome to the Lounge.

      Kassia Omohundro Wedekind: (17:44)

      Thank you. We’re excited to be here. We’re fans of Season One. So we’re ready to go.

      Dan Meyer: (17:50)

      I was a secondary teacher but I still found so much to love about the book. I think facilitating conversations is just generally challenging, and perhaps even more so in math, where answers feel so tightly dialed-in, in lots of ways. But I loved it. I would love for you to just explain to our audience, what is a hands-down conversation and how does that contrast with what might be standard practice for some people? For some classes?

      Christy Hermann Thompson: (18:13)

      We just started using the term hands-down conversation because we wanted to differentiate the fact that there are different times to have different types of dialogue in the math classroom, in the literacy classroom. And we use this as one of our tools. Right? It’s not that every day, all day long, we’re very against hand-raising and should never see that again. We find that having this as one of our tools will be where we make really clear to the students that this is a moment where we’re turning it over to you to negotiate the space and make the decisions about when your voice comes in and who speaks next. You know, carry on kind of like that dinner table or that playground or, you know, whatever is your natural habitat for talk. And bringing that into the classroom and then hoping that it also someday transfers back out of the classroom back into the real world.

      Bethany Lockhart Johnson: (19:09)

      For the teachers who feel like that’s terrifying to have students just start speaking, and speaking without any sort of control or my little equity sticks, my little popsicle sticks, or my popcorn, or whatever other thing they’re using, what would you say is the first step?

      Christy Hermann Thompson: (19:25)

      So I think recognizing and naming that fear is part of it. And then saying to yourself, “What’s the worst that could happen here?” You know, I think the worst that could happen is that nobody talks and it’s totally silent. Or on the other hand, everybody talks at the same time. And both of those things will happen! And so what? It’s gonna be messy. And if you just acknowledge that it’s gonna look messy, and that’s part of growing; that every child as they learn—and every adult—is messy as they grow.

      Kassia Omohundro Wedekind: (19:59)

      And we have to see what kinds of things will happen in a hands-down conversation. Like there’s no prerequisite. You just start and then you see what happens. And those are the signs that tell you, “What can help this community grow as talkers and listeners? If everyone’s talking at the same time, and they’re kind of pushing each other over with their words by saying, “I have something to add!” “I have something to add!” or something like that, that’s a common thing that sometimes happens at the beginning. Then you know that the next step is to do some work about how to hold your thoughts back, how to add, wait for a space in the conversation to talk. And those are all things we need people to know out in the world.

      Bethany Lockhart Johnson: (20:41)

      So can you give an example of a micro-lesson that…well, first, what do you define as a micro-lesson? And then, what’s an example of one that maybe somebody who wants to dip their toe into the world of hands-down conversations that they could try?

      Christy Hermann Thompson: (20:56)

      The reason we call them micro-lessons is because we wanted to differentiate from the term mini lesson, which is out there and tends to describe about 10 or 15 minutes that might take place at the beginning of a work period of time. And this is much smaller than that. We usually follow a pretty predictable structure of naming. Here’s this thing that’s so helpful when we’re having conversations, and we love to especially be able to name something that a student had done: “Kaylee did this yesterday and it really helped us.” So what we might call that is, “And then here’s how Kaylee and other people might do that. They might do something like this.” And, you know, having a little anchor chart, so there’s a visual reminder of that skill. “So when we’re having a conversation today, you could try…”. And that’s basically a micro-lesson, just in a nutshell.

      Kassia Omohundro Wedekind: (21:51)

      When I was doing these hands-down conversations and I had more space for myself to listen as a teacher, I’m like, “Well, look at those kids, like, slumped onto the ground, like, pulling the carpet apart, but they’re having this amazing conversation!” And so I learned that listening is a lot broader. So in this lesson that I’m thinking about, we just talk with kids about what are lots of different ways that listening can look like. Sometimes with younger kids, I’ll take pictures of them listening in different ways and we’ll notice things about them together. And then we invite them to talk with their Turn and Talk partner about like, “How do you like to be listened to?” Or “Tell me about how you listen.” And just kind of broaden that. And really, I like to think that like the micro-lessons are for the kids, but also I’m saying those things to say them for myself. Like, “Remember, you don’t have to insist that kids are staring each other down in the eyes all the time. Like, “It’s OK when they’re doing other things. There’s other ways of listening.” So I think I’ve learned as much from the micro-lessons each time I do them as the kids that I’m trying to help grow as listeners and talkers, as well.

      Dan Meyer: (23:00)

      You folks have a lot of really eloquent ideals you express, around democratic classrooms and engagement. But you also have just some very tangible, practical…even down to, like, how a teacher positions their body in space and the way they use their eyes to connect. I think it would be really helpful for teachers to hear that it’s not just they’re signing on to a manifesto of sorts, but there’s ways they can act their way into the beliefs that you both expressed here.

      Christy Hermann Thompson: (23:26)

      When I’m starting hands-down conversation work, if I put myself a little bit outside of the circle and look down, and give myself a clipboard, it, it helps me bite my tongue and it helps me give better wait time and see what the kids are doing before I have that tendency to jump in and teach and do lots of teacher-y things.

      Bethany Lockhart Johnson: (23:48)

      Kassia and Christy, thank you so much for joining us. We are so excited to have this conversation and to share your work. This is exciting. And I feel like this conversation is just the beginning of a deeper dive into this book.

      Kassia Omohundro Wedekind: (24:01)

      Thanks for having us.

      Christy Hermann Thompson: (24:02)

      Thank you.

      Dan Meyer: (24:03)

      Thank you both.

      Bethany Lockhart Johnson: (24:06)

      Thanks so much for listening to our conversations with Fawn Nguyen and Christy Hermann Thompson and Kassia Omohundro Wedekind, both of which were released in 2021, part of our second season. And, you know, we hoped you enjoyed listening to it for a first, second, maybe third, fourth time.

      Dan Meyer: (24:24)

      Let’s be real. There’s some real fans out there.

      Bethany Lockhart Johnson: (24:26)

      We loved it then. We love it now!

      Dan Meyer: (24:28)

      Yep, yep, yep. Please keep in touch with the show by following us on Twitter at MTL Show, and join our Facebook group, the Math Teacher Lounge community. We’d love to hear from you there. And please stay tuned for more info on what we’re cooking up here in the Math Teacher Lounge. Thank you folks for listening. Take care, Bethany.

      Bethany Lockhart Johnson: (24:47)

      Bye now.

      Stay connected!

      Join our community and get new episodes every other Tuesday!

      We’ll also share new and exciting free resources for your classroom every month.

      What Fawn Nguyen says about math teaching

      “It’s a big deal for me to have the opportunity and this trust to integrate problem-solving into the curriculum.”

      – Fawn Nguyen

      Specialist, Math Advance Team, Amplify Desmos Math

      Meet the guests

      Fawn Nguyen

      Fawn began her work with Amplify in 2022 as a Math Advance Team Specialist. She was a math coach for a K-8 school district for three years, and a middle school teacher for 30 years before that. Fawn has also received a number of accolades as an educator.

      Christy Thompson

      Christy Thompson is a Literacy Coach in Fairfax County Public Schools in Virginia. She has spent her teaching and coaching career particularly focused on listening to and learning from the talk of our youngest students.

      Kassia Omohundro Wedekind

      Kassia Omohundro Wedekind spent many wonderful years as a classroom teacher and math coach in Fairfax County Public Schools in Virginia and now splits her time between being an independent math coach and an editor at Stenhouse Publishers. Her favorite days are spent in classrooms learning from the many ways children talk, listen and negotiate meaning together.

      Three women are pictured separately in circular frames, each smiling and facing the camera, against a white background with overlapping pastel shapes—perfect for highlighting math teacher lounge discussions or sharing essential math teacher resources.
      A graphic with the text "Math Teacher Lounge with Bethany Lockhart Johnson and Dan Meyer" on colored overlapping circles.

      About Math Teacher Lounge: The podcast

      Math Teacher Lounge is a biweekly podcast created specifically for K–12 math educators. In each episode co-hosts Bethany Lockhart Johnson (@lockhartedu) and Dan Meyer (@ddmeyer) chat with guests, taking a deep dive into the math and educational topics you care about.

      Join the Math Teacher Lounge Facebook group to continue the conversation, view exclusive content, interact with fellow educators, participate in giveaways, and more!

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