Welcome, Idaho science reviewers!
Review Materials
Teacher 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. Before you panic, rest assured that teachers do not use these robust reference guides for day-to-day teaching. For that, we have a hands-free TG!
- 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 Digital Lessons: 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. Read this help article to learn more.
Hands-on kits
Every unit of our program includes a dedicated hands-on materials kit. Due to the amount of materials involved, we provided your committee two sample kits per grade level. Our unit-specific kits make material management easy for teachers—they grab the tub they need and then put it all back with ease. Plus, items needed for multiple units are duplicated and found in each tub.
Our unit-specific kits:
- Include more materials — We give you enough non-consumable 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.
Overview
Developed by UC Berkeley’s Lawrence Hall of Science, our program features:
- A 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.
- Cohesive units, chapters, lessons, and activities designed to deliver true 3-dimensional learning.
- An instructional design that supports all learners in accessing all standards.
Hands-on investigations
Literacy integration
Simulations and modeling tools
Classroom discussions
EdReports All-Green
Amplify Science for grades K–8 has been rated all-green by EdReports.
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.
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.
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.
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.
Unit 2
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
Unit 6
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.
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.
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.
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.
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.
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.
Unit 3
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.
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.
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.
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.
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.
Unit 8
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.
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.
- To explore as a teacher, enter this username (t1.washoemssci@demo.tryamplify.net) and this password ( Amplify1-washoemssci).
- To explore as a student, enter this username (s1.washoemssci@demo.tryamplify.net) and this password ( Amplify1-washoemssci).
- Choose your grade level from the drop-down menu.
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
Overview
With Amplify Science, students don’t just passively learn about science concepts.
No matter where your students are learning, 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.
Watch the videos below to learn how the program empowers students to think, read, write, and argue like real scientists and engineers every day.
Grades 6–8
EdReports All-Green
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.
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.
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.
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.
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.
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.
Unit 5
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.
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.
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.
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.
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.
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.
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.
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.
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.
Unit 2
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
Unit 5
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.
Unit 6
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.
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.
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.
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.
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.
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.
Unit 3
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.
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.
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.
Unit 6
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.
Unit 7
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.
Unit 8
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.
Unit 9
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.
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.
- To explore as a teacher, enter this username (t1.cartwrightsd@demo.tryamplify.net) and this password (Amplify1-cartwrightsd).
- To explore as a student, enter this username (s1.cartwrightsd@demo.tryamplify.net) and this password (Amplify1-cartwrightsd).
- Choose your grade level from the drop-down menu.
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 a Launch Unit
Launch units are the first units taught in each year of the program. The goal of a Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year.
Navigating a Core Unit
Core units introduce a real-world problem and support students as they figure out the anchoring phenomenon and gain an understanding of the unit’s DCIs, SEPs, and CCCs.
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.
Navigating an Engineering Internship
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 Classwork and Reporting
Classwork is our new online grading tool that gives you quick and easy access to unreviewed work, student portfolios of work, and automatically generated differentiation groups.
Resources
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.
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.
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
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.
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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
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.
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.
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.
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.
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.
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.
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.
Magnetic Fields
Domain: Physical Science
Unit type: Core
Student role: Physicists
Phenomenon: During a test launch, a spacecraft traveled much faster than expected.
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.
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.
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.
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.
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
Montana 6–8 Science
Peoria 6–8 Science Review
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.
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.
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.
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.
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.
Unit 2
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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
Get in touch
Have questions? Bob McCarty is standing by and ready to help.
Robert “Bob” McCarty
Senior Account Executive
(435) 655-1731
rmccarty@amplify.com
Sweetwater 6–8 Science
A closer look at grades 6–8 (domain)
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.
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.
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 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
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.
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.
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.
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.
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.
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.
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.
Earth’s Changing Climate
Domain: Earth and Space Science
Unit type: Core
Student role: Climatologists
Phenomenon: The ice on Earth’s surface is melting.
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.
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.
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
Matter and Energy in Ecosystems
Domain: Life Science
Unit type: Core
Student role: Ecologists
Phenomenon: What caused the mysterious crash of a biodome ecosystem?
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.
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.
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.
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.
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.
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.
Magnetic Fields
Domain: Physical Science
Unit type: Core
Student role: Physicists
Phenomenon: During a test launch, a spacecraft traveled much faster than expected.
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.
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.
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.
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.
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.
Resources
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.
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.
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
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.
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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
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
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.
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.
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.
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.
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.
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.
Magnetic Fields
Domain: Physical Science
Unit type: Core
Student role: Physicists
Phenomenon: During a test launch, a spacecraft traveled much faster than expected.
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.
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.
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.
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.
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
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.
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.
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
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.
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.
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.
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.
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.
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.
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.
Earth’s Changing Climate
Domain: Earth and Space Science
Unit type: Core
Student role: Climatologists
Phenomenon: The ice on Earth’s surface is melting.
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.
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.
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
Matter and Energy in Ecosystems
Domain: Life Science
Unit type: Core
Student role: Ecologists
Phenomenon: What caused the mysterious crash of a biodome ecosystem?
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.
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.
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.
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.
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.
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.
Magnetic Fields
Domain: Physical Science
Unit type: Core
Student role: Physicists
Phenomenon: During a test launch, a spacecraft traveled much faster than expected.
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.
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.
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.
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.
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.
Resources
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.
Overview
Developed by UC Berkeley’s Lawrence Hall of Science, our program features:
- A 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
[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.
[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.
Literacy-rich science instruction (K–5)
Immersing young students in reading, writing, and arguing like real scientists and engineers.
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:
- Find a summary of each unit below including each unit’s student role and anchor phenomenon.
- Download some helpful resources to support your review.
- Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
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.
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.
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.
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.
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.
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.
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.
Unit 2
Properties of Materials
Student role: Glue engineers
Phenomenon: Different glue recipes result in glues that have different properties.
Unit 3
Changing Landforms
Student role: Geologists
Phenomenon: The cliff on which Oceanside Recreation Center is situated appears to be receding.
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.
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.
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.
Unit 4
Weather and Climate
Student role: Meteorologists
Phenomenon: Three different islands, each a contender for becoming an orangutan reserve, experience different weather patterns.
Unit 1
Energy Conversions
Student role: System engineers
Phenomenon: The fictional town of Ergstown experiences frequent blackouts. Their electrical system seems to be failing.
Unit 2
Earth’s Features
Student role: Geologists
Phenomenon: A mysterious fossil is discovered in a canyon within the fictional Desert Rocks National Park.
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.
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.
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.
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.
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.
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:
- Find a summary of each unit below including each unit’s student role and anchor phenomenon.
- Download some helpful resources to support your review.
- Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
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.
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.
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.
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.
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.
CORE
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
CORE
Magnetic Fields
Domain: Physical Science
Unit type: Core
Student role: Physicists
Phenomenon: During a test launch, a spacecraft traveled much faster than expected.
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.
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.
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.
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.
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.
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.
[Video] Planning in action (K–5)
Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.
[Video] Planning in action (6–8)
Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.
[Video] Simulations and modeling tools (K–5)
Watch how students investigate phenomena with the help of digital tools.
[Video] Simulations and modeling tools (6–8)
Watch how students investigate phenomena with the help of digital tools.
Summary of Investigations (K–5) coming soon
Explore the types of investigations that students conduct.
Summary of Investigations (6–8) coming soon
Explore the types of investigations that students conduct.
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.
Students ready for more
Learn how we make learning more rigorous for students ready for a challenge.
NGSS Benchmark assessments
Learn more about the Next Generation Science Standards Benchmark assessments created by Amplify.
Ready to explore with digital access and physical samples?
Start your digital review and request physical samples with these three easy steps.
- Note these Ohio specific login credentials for your digital access.
Username: t.ohscience@tryamplify.net
Password: AmplifyNumber1 - Click Review now.
- Complete the form and select Log in with Amplify to input the Ohio specific login.
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
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.
Overview
Developed by UC Berkeley’s Lawrence Hall of Science, our program features:
- A 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.
Elementary school
When you’re ready:
- Find a summary of each unit below including each unit’s student role and anchor phenomenon.
- Download some helpful resources to support your review.
- Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
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.
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.
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.
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.
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.
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.
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.
Unit 2
Properties of Materials
Student role: Glue engineers
Phenomenon: Different glue recipes result in glues that have different properties.
Unit 3
Changing Landforms
Student role: Geologists
Phenomenon: The cliff on which Oceanside Recreation Center is situated appears to be receding.
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.
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.
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.
Unit 4
Weather and Climate
Student role: Meteorologists
Phenomenon: Three different islands, each a contender for becoming an orangutan reserve, experience different weather patterns.
Unit 1
Energy Conversions
Student role: System engineers
Phenomenon: The fictional town of Ergstown experiences frequent blackouts. Their electrical system seems to be failing.
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.
Unit 3
Earth’s Features
Student role: Geologists
Phenomenon: A mysterious fossil is discovered in a canyon within the fictional Desert Rocks National Park.
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.
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.
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
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.
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:
- Find a summary of each unit below including each unit’s student role and anchor phenomenon.
- Download some helpful resources to support your review.
- Explore the digital Teacher’s Guide by clicking the orange “Review now” button.
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.
CORE
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
CORE
Magnetic Fields
Domain: Physical Science
Unit type: Core
Student role: Physicists
Phenomenon: During a test launch, a spacecraft traveled much faster than expected.
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.
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.
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.
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.
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.
[Video] Planning in action (K–5)
Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.
[Video] Planning in action (6–8)
Watch how easy it is for Amplify Science teachers to prep their 3-D instruction.
[Video] Simulations and modeling tools (K–5)
Watch how students investigate phenomena with the help of digital tools.
[Video] Simulations and modeling tools (6–8)
Watch how students investigate phenomena with the help of digital tools.
Students ready for more
Learn how we make learning more rigorous for students ready for a challenge.
[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
[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.
Literacy-rich science instruction (K–5)
Immersing young students in reading, writing, and arguing like real scientists and engineers.
NGSS Benchmark assessments
Learn more about the Next Generation Science Standards Benchmark assessments created by Amplify.
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.
Ready to start exploring with digital access?
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
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.
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.
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
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.
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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
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.
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.
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.
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.
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.
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.
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.
Magnetic Fields
Domain: Physical Science
Unit type: Core
Student role: Physicists
Phenomenon: During a test launch, a spacecraft traveled much faster than expected.
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.
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.
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.
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.
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
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.
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.
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
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.
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.
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.
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.
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.
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.
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.
Earth’s Changing Climate
Domain: Earth and Space Science
Unit type: Core
Student role: Climatologists
Phenomenon: The ice on Earth’s surface is melting.
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.
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.
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
Matter and Energy in Ecosystems
Domain: Life Science
Unit type: Core
Student role: Ecologists
Phenomenon: What caused the mysterious crash of a biodome ecosystem?
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.
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.
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.
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.
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.
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.
Magnetic Fields
Domain: Physical Science
Unit type: Core
Student role: Physicists
Phenomenon: During a test launch, a spacecraft traveled much faster than expected.
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.
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.
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.
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.
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.
Resources
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.
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.
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
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.
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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
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
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.
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.
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.
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.
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.
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.
Magnetic Fields
Domain: Physical Science
Unit type: Core
Student role: Physicists
Phenomenon: During a test launch, a spacecraft traveled much faster than expected.
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.
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.
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.
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.
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
A closer look at grades 6–8 (domain)
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.
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.
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 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
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.
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.
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.
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.
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.
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.
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.
Earth’s Changing Climate
Domain: Earth and Space Science
Unit type: Core
Student role: Climatologists
Phenomenon: The ice on Earth’s surface is melting.
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.
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.
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
Matter and Energy in Ecosystems
Domain: Life Science
Unit type: Core
Student role: Ecologists
Phenomenon: What caused the mysterious crash of a biodome ecosystem?
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.
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.
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.
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.
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.
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.
Magnetic Fields
Domain: Physical Science
Unit type: Core
Student role: Physicists
Phenomenon: During a test launch, a spacecraft traveled much faster than expected.
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.
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.
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.
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.
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.
Resources
Amplify Tutor Hiring
AMPLIFY DESMOS MATH FLORIDA
Welcome, Palm Beach reviewers!
We’re honored to introduce you to Amplify Desmos Math Florida, and confident this comprehensive program will be a powerful tool in classrooms across your district.
Please start with the video on the right to learn more.
Next, view this video for an in-depth look at a lesson from both the Teacher and Student Editions.
Accelerated 7
Visit http://learning.amplify.com/.
To further support your review.
Select Log in with Amplify and use the login credentials in your submission documents.
- Palm Beach Rubric Response
- Accelerated 7 Standards Correlation Amplify Desmos Math Florida
- Amplify Desmos Math Florida Program Guide
- IM7 Standards Alignment
- Grade 7 Multilingual Glossary
- Grade 8 Multilingual Glossary
- Amplify Desmos Math Florida Multilingual Resources
Welcome, Florida reviewers!
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.
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
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
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.
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 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.
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.
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
Science (Middle School Physical Science) Evaluation Form
Science (Middle School Life Science) Evaluation Form
Science Evaluation Form Middle School Earth and Space Science
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
Metabolism
Domain: Life Science
Unit type: Core
Student role: Medical researchers
Phenomenon: Elisa, a young patient, feels tired all the time.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
Magnetic Fields
Domain: Physical Science
Unit type: Core
Student role: Physicists
Phenomenon: During a test launch, a spacecraft traveled much faster than expected.
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.
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.
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.
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
Welcome to Physical Science
Amplify Science California is so effective you can cover 100% of the NGSS in fewer lessons than other programs.
Plus, you can breathe a sigh of relief knowing we give you enough materials to support 200 students. In fact, our material kits:
- Support small groups of 4-5 students.
- Make organization and finding materials easy.
- Last longer with only one of the nine kits requiring refills.
What students learn
Lauren Learner loves science. Watch this video to find out what she learns in second grade. >
When you’re ready:
- Find a summary of each unit below including each unit’s student role and anchor phenomenon.
- Click on the orange “See how the unit works” link to download a helpful Unit Guide. These guides make great companions to busy reviewers looking for a big-picture understanding of how each unit works.
Unit 1
Harnessing Human Energy
Student role: Energy scientists
Phenomenon: Rescue workers can use their own human kinetic energy to power electrical devices used during rescue missions.
Unit 2
Force and Motion
Student role: Physicists
Phenomenon: The asteroid sample-collecting pod collided with the docking station and failed to dock as planned.
Unit 3
Force and Motion Engineering Internship
Student role: Mechanical engineering interns
Phenomenon: Designing emergency supply delivery pods with different structures can better protect pods and their contents.
Unit 4
Magnetic Fields
Student role: Physicists
Phenomenon: During its third magnetic spacecraft launcher test, a model spacecraft far exceeded its target speed.
Unit 5
Thermal Energy
Student role: Thermal scientists
Phenomenon: Riverdale School needs a new heating system. Only one of two proposed systems is the best choice.
Unit 6
Phase Change
Student role: Chemists
Phenomenon: A methane lake on Titan no longer appears in images taken by a space probe two years apart.
Unit 7
Phase Change Engineering Internship
Student role: Chemical engineering interns
Phenomenon: Designing portable baby incubators with different phase change materials helps keep babies’ temperatures healthy.
Unit 8
Chemical Reactions
Student role: Forensic chemists
Phenomenon: A mysterious reddish-brown substance has been detected in the tap water of Westfield.
Unit 9
Light Waves
Student role: Spectroscopists
Phenomenon: The rate of skin cancer in Australia is higher than other parts of the world despite getting the same or less sunlight.
How teachers teach
Tom Teacher feels confident delivering 3-D instruction with our resources by his side. Watch this video to learn more. >
When you’re ready:
- Scroll down and take a closer look at your classroom resources.
- Click on the orange links below each component to see grade-specific samples.
Classroom Slides
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.
Teacher’s Reference Guide
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.
Login to platform below to access
Materials Kits
Our kits include enough non-consumable materials to support 200 student uses. In other words, you have enough materials to support all five periods and small groups of 4-5 students each. Plus, our unit-specific kits mean you just grab the tub you need and then put it all back with ease.
Simulations and Practice Tools
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.
Consumable Notebooks
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.
Student Edition Hardcover
This durable Student Edition is grade-level specific and contains all of the articles that students refer to throughout the year. Districts may choose to pair these traditional student texts with our digital student experience or new 2-volume consumable notebook set.
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. What’s more, we’ll push them out to you even after you adopt us!
Navigating the program
Watch this video showing you how to navigate our digital platform. Then following the instructions below. >
- 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.
Navigating a Launch Unit
Launch units are the first units taught in each year of the program. The goal of a Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year.
Navigating an Engineering Internship
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 a Core Unit
Core units introduce a real-world problem and support students as they figure out the anchoring phenomenon and gain an understanding of the unit’s DCIs, SEPs, and CCCs.
Navigating Classwork and Reporting
Classwork is our new online grading tool that gives you quick and easy access to unreviewed work, student portfolios of work, and automatically generated differentiation groups.
Welcome to Life Science
Amplify Science California is so effective you can cover 100% of the NGSS in half the time of other programs.
Plus, you can breathe a sigh of relief knowing we give you enough materials to support 200 students. In fact, our material kits:
- Support small groups of 4-5 students.
- Make organization and finding materials easy.
- Last longer with only one of the nine kits requiring refills.
What students learn
Lauren Learner loves science. Watch this video to find out what she learns in second grade. >
When you’re ready:
- Find a summary of each unit below including each unit’s student role and anchor phenomenon.
- Click on the orange “See how the unit works” link to download a helpful Unit Guide. These guides make great companions to busy reviewers looking for a big-picture understanding of how each unit works.
Unit 1
Microbiome
Student role: Microbiological researchers
Phenomenon: The presence of 100 trillion microorganisms living on and in the human body keeps the body healthy.
Unit 2
Metabolism
Student role: Medical students
Phenomenon: Elisa, a teenager, is tired all the time. In fact, she can’t get through the day without feeling exhausted.
Unit 3
Metabolism Engineering Internship
Student role: Food engineers
Phenomenon: Health bars with different molecular compositions meet the metabolic needs of patients or rescue workers.
Unit 4
Traits and Reproduction
Student role: Biomedical students
Phenomenon: Darwin’s bark spider offspring have different silk flexibility traits, even though they have the same parents.
Unit 5
Populations and Resources
Student role: Biologists
Phenomenon: The size of the moon jelly population in the fictional Glacier Sea has experienced a puzzling increase.
Unit 6
Matter and Energy in Ecosystems
Student role: Ecologists
Phenomenon: A sealed biodome built by a group of Econauts mysteriously crashed despite following the advice of experts.
Unit 7
Natural Selection
Student role: Biologists
Phenomenon: The rough-skinned newt population in Oregon State Park has become more poisonous over time.
Unit 8
Natural Selection Engineering Internship
Student role: Clinical engineers
Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development.
Unit 9
Evolutionary History
Student role: Paleontologists
Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.
How teachers teach
Tom Teacher feels confident delivering 3-D instruction with our resources by his side. Watch this video to learn more. >
When you’re ready:
- Scroll down and take a closer look at your classroom resources.
- Click on the orange links below each component to see grade-specific samples.
Classroom Slides
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.
Teacher’s Reference Guide
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.
Login to platform below to access
Materials Kits
Our kits include enough non-consumable materials to support 200 student uses. In other words, you have enough materials to support all five periods and small groups of 4-5 students each. Plus, our unit-specific kits mean you just grab the tub you need and then put it all back with ease.
Simulations and Practice Tools
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.
Consumable Notebooks
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.
Student Edition Hardcover
This durable Student Edition is grade-level specific and contains all of the articles that students refer to throughout the year. Districts may choose to pair these traditional student texts with our digital student experience or new 2-volume consumable notebook set.
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. What’s more, we’ll push them out to you even after you adopt us!
Navigating the program
Watch this video showing you how to navigate our digital platform. Then following the instructions below. >
- 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.
Navigating a Launch Unit
Launch units are the first units taught in each year of the program. The goal of a Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year.
Navigating an Engineering Internship
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 a Core Unit
Core units introduce a real-world problem and support students as they figure out the anchoring phenomenon and gain an understanding of the unit’s DCIs, SEPs, and CCCs.
Navigating Classwork and Reporting
Classwork is our new online grading tool that gives you quick and easy access to unreviewed work, student portfolios of work, and automatically generated differentiation groups.
Welcome to Grade 8
Amplify Science California is so effective you can cover 100% of the NGSS in fewer lessons than other programs.
Plus, you can breathe a sigh of relief knowing we give you enough materials to support 200 students. In fact, our material kits:
- Support small groups of 4-5 students.
- Make organization and finding materials easy.
- Last longer with only one of the nine kits requiring refills.
What students learn
Lauren Learner loves science. Watch this video to find out what she learns in eigth grade. >
When you’re ready:
- Find a summary of each unit below including each unit’s student role and anchor phenomenon.
- Click on the orange “See how the unit works” link to download a helpful Unit Guide. These guides make great companions to busy reviewers looking for a big-picture understanding of how each unit works.
Unit 1
Harnessing Human Energy
Student role: Energy scientists
Phenomenon: Rescue workers can use their own human kinetic energy to power electrical devices used during rescue missions.
Unit 2
Force and Motion
Student role: Physicists
Phenomenon: The asteroid sample-collecting pod collided with the docking station and failed to dock as planned.
Unit 3
Force and Motion Engineering Internship
Student role: Mechanical engineering interns
Phenomenon: Designing emergency supply delivery pods with different structures can better protect pods and their contents.
Unit 4
Magnetic Fields
Student role: Physicists
Phenomenon: During its third magnetic spacecraft launcher test, a model spacecraft far exceeded its target speed.
Unit 5
Light Waves
Student role: Spectroscopists
Phenomenon: The rate of skin cancer in Australia is higher than other parts of the world despite getting the same or less sunlight.
Unit 6
Earth, Moon, and Sun
Student role: Astronomers
Phenomenon: Pictures of specific features on the Moon can only be taken by an astrophotographer at certain times.
Unit 7
Natural Selection
Student role: Biologists
Phenomenon: The rough-skinned newt population in Oregon State Park has become more poisonous over time.
Unit 8
Natural Selection Engineering Internship
Student role: Clinical engineers
Phenomenon: Designing malaria treatment plans that use different combinations of drugs can reduce drug resistance development.
Unit 9
Evolutionary History
Student role: Paleontologists
Phenomenon: A mystery fossil at the Natural History Museum has similarities with both wolves and whales.
How teachers teach
Tom Teacher feels confident delivering 3-D instruction with our resources by his side. Watch this video to learn more. >
When you’re ready:
- Scroll down and take a closer look at your classroom resources.
- Click on the orange links below each component to see grade-specific samples.
Classroom Slides
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.
Teacher’s Reference Guide
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.
Login to platform below to access
Materials Kits
Our kits include enough non-consumable materials to support 200 student uses. In other words, you have enough materials to support all five periods and small groups of 4-5 students each. Plus, our unit-specific kits mean you just grab the tub you need and then put it all back with ease.
Simulations and Practice Tools
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.
Consumable Notebooks
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.
Student Edition Hardcover
This durable Student Edition is grade-level specific and contains all of the articles that students refer to throughout the year. Districts may choose to pair these traditional student texts with our digital student experience or new 2-volume consumable notebook set.
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. What’s more, we’ll push them out to you even after you adopt us!
Navigating the program
Watch the video to the right plus the ones below showing you how to navigate our digital platform. Then following the instructions below. >
- 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.
Navigating a Launch Unit
Launch units are the first units taught in each year of the program. The goal of a Launch unit is to introduce students to norms, routines, and practices that will be built on throughout the year.
Navigating an Engineering Internship
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 a Core Unit
Core units introduce a real-world problem and support students as they figure out the anchoring phenomenon and gain an understanding of the unit’s DCIs, SEPs, and CCCs.
Navigating Classwork and Reporting
Classwork is our new online grading tool that gives you quick and easy access to unreviewed work, student portfolios of work, and automatically generated differentiation groups.
S1-06: Supporting students with a creative twist: A conversation with Kentucky Science Teacher of the Year, Shad Lacefield
In this episode, Eric sits down with the Kentucky Science Teacher of the Year, Shad Lacefield. Shad shares his experience teaching during the first year of the pandemic, where Shad dressed up in over 100 costumes to create a unique and engaging online learning experience for his students. Shad also explains ways he connects with his students to celebrate student success, as well as large-scale efforts he leads within his school to cultivate the love of learning science content. Explore more from Science Connections by visiting our main page.
Shad Lacefield (00:00):
When you stay relevant, it’s being engaged with your students and figuring out, or what are, what are they liking? And every year it’s gonna be different. And that helps you stay relevant. When you have conversations and you build relationships with your kids,Eric Cross (00:13):
Welcome to science connections. I’m your host. Eric Cross. My guest today is Shad Layfield. Shad is a teacher at garden Springs elementary and a part-time professor at Asbury University in Kentucky during the first year of the pandemic, Mr. Layfield dressed up in over a hundred costumes to create a unique and engaging online learning experience for his students. He also created Vader visits, where he visited students at their homes, dressed as Darth Vader to celebrate their online successes and keep them encouraged. During a challenging time. In this episode, we discuss how creativity impacts engagement, transferring lessons learned from distance teaching back to in-person instruction, and how upper grades can apply the same principles to improve student learning. I hope you enjoy this discussion with shad lays field. So you’ve been in fourth grade for four years, and then you were in second grade and fifth grade. And so like how long have you been teaching for like total?
Shad Lacefield (01:09):
So this is my 15th year teaching.
Eric Cross (01:12):
Really? Yeah. You’ve been in the game for a while.
Shad Lacefield (01:15):
Yeah. Yep. It, it doesn’t, and it’s always surprising to parents too during that, that first like, come in and meet your teacher. And I walk in, I’m like, yeah, I’ve been teaching for 15 years and every time it gets ’em, they’re like no way. And I’m like, yeah,
Eric Cross (01:28):
That’s, that’s a good thing though. That’s a good thing. Right?
Eric Cross (01:31):
You know? So like, well the energy and then, and you’re just how you’re perceived. Like you’re, they’re just, I don’t know. It’s something about work with young people. Like it keeps you young.
Shad Lacefield (01:39):
That’s what it is. Absolutely.
Eric Cross (01:41):
So how did, how, like, what’s your origin story? Like, how did you become a teacher? Like what, what was it? Was it something like you knew second career, like right outta school? Like how did you end up in the classroom?
Shad Lacefield (01:53):
Yeah. No, and I love this question cause I’m a big Marvel and, and superhero. So origin stories are all, I love a good origin story. So I grew up on a 13 acre farm in a little bitty town called Gustin, Kentucky, and very early on, like we were instilled my parents, amazing, amazing parents. But they really instilled like a, a super important work ethic in our lives of like, it’s, it’s all about hard work and it’s important that you’re working hard in whatever it is that you do. And I’m one of six kids as well in my family.
Eric Cross (02:24):
Where are you in the–
Shad Lacefield (02:25):
I’m second to last.
Eric Cross (02:26):
Second to last. Okay. So you’re the second youngest.
Shad Lacefield (02:29):
Yes. Okay. And and so, and so growing up, like with that, like, you know, I worked in tobacco, I worked in hay, you know, we did things being on the farm and stuff like that. And within my family as well, there’s four boys. And so when I decided to go to college I was the first guy in my family to go to college. And the first and only boy that ended up going to college. And so it was like this big deal, like, oh, you know, we got one of our boys gonna go to college. So what is he gonna be? And I was like, well, if I’m gonna put forth the, the time and effort and then the financial strain that it would cause cuz we were not poor at all. My dad worked two jobs to make sure, but I really felt the responsibility of like, if I’m gonna go, I’m gonna work in a profession.
Shad Lacefield (03:09):
That’s gonna make a lot of money. And here I am as a teacher now. So I didn’t go to college to be a teacher. I actually was pre dentistry. I thought, now here’s a profession. You can, a lot of money. You don’t work weekends or holidays, you know, I can still be the doctor thing. And so I’m gonna be pre dentistry. But like all good origin stories. There was a, there was a flip. So in my first year I started working at the most majestic place that you will ever go. It’s called Squire, boon, caverns. It’s a cave in Southern Indiana. And it’s an amazingly beautiful little place. You have to like one lane highway, like road to go back there up and down. Like you, you think you’re never gonna make it. And if it rains too much, the bridge will flood and you actually can’t even get back there.
Shad Lacefield (03:52):
So that’s how we’re talking like way back in the sticks. But once you get back, back there totally worth it. And as part of the job you were a tour I also did grist mill demonstrations and gym mining adventures, or, you know, as they’re gym mining and stuff like that. And within that, I started working with school aged kids and on very large tours and stuff. And my manager at the time, Claudia, I’m still great friends with and we still take our kids back there. Every summer she, to me, you’re really good with kids. Like you’re really good with kids. We have this scout program that’s on the weekends. And then during the summers and you would be teaching kindergarten through eighth grade kids, geology and forestry. What do you think about doing that? And I said, well, right, let’s try that out. And then I got the teaching bug and it hit and I was like, oh my gosh, like I don’t wanna spend my life doing something that is all about money or, or that is like, this is where it’s at. Like, I love this, I enjoy this. I enjoy the response that I get when I’m talking. And kids are excited about learning and getting new information and learning new stuff. And so then I change my major and here I am now, all these years later teaching instead of being a dentist,
Eric Cross (05:04):
Are there, are there days, do you ever have days where you’re like, you know, dentistry, it’s still an option. Like I can, I can go back.
Shad Lacefield (05:12):
Oh, rare, rare occasions. Rarely. Yeah.
Eric Cross (05:16):
Okay. Yeah. All right. All right. Fair enough. I, I, I always joke and say that like we have, you know, sometimes I have my, my alternate job on the hard days, which is for me, it’s working at the gap where I just want to fold clothes and go home at the end of the day, you know, on those really rough days. And you know, it’s never the kids, right. It’s always other things. The kids are like the great part. And then there’s all these other things. And I just wanna work at the gap. I just wanna work at the gap. Fold some clothes. Yes, sir. Yes. Ma’am absolutely. I can find that size for you. And then I just go home cause about their job when they go home at the end of the day, when you work at the gap, at least sorry, gap workers. I’m sure hard of that, but my perception in my mind is that you close up shop and then you’re done. Yeah,
Shad Lacefield (05:52):
Absolutely. Like you said, they can turn it, like it’s a turnoff at the end. Exactly. As teachers we know, like you don’t ever turn it off, it’s always there.
Eric Cross (06:00):
Yeah. So one of the things that I was super excited about when I, when I first heard about you is I went on your website and there’s so many things I feel like I can just talk about your website and just the, the content that you’ve produced. I, I, there’s so many directions I can go. But one, one of the things I want to ask you is, is about that. Now, one of the things that’s on there, and this is coming from a fellow star wars, Fisha who finished Bobba FET and the Mandalorian recently and is Jones in four OB one to come out.
Shad Lacefield (06:33):
Oh, so yes,
Eric Cross (06:35):
I live in Southern California next to Disneyland visited Galaxy’s edge star wars. You have these things called VA Vader visits. And so what do you do in those? And like, where did you get the idea for these Vader visits?
Shad Lacefield (06:50):
So the costumes were bringing the kids into the classroom. But when they left my room because you would, we only had them for a certain amount of time. There was still a lot of extra work that they needed to get done. And what I was seeing was I could get them to come in and they were really engaged during my lesson. But then afterwards, when it came to work completion or getting things done, there was, it was starting to fall off. As you know, we were experiencing, you know, more and more craziness of what’s going on. So then as an incentive, I decided if you have everything turned in, by the end of the day, I’m gonna dress up in my Darth Vader outfit, full costume, the, you know, the, the full helmet, like everything. And I’m gonna show up to your house and we’re gonna hang out and play any game at all that you wanna play.
Shad Lacefield (07:34):
So then it was a way of rewarding. My kids for getting everything turned in. But same time I felt like it would also help me build a relationship with them. That was a very challenging part of online learning. Like, again, I want you to feel like you’re a part of my classroom. I wanna feel like I’m invested in you and wanna learn about you. And it was a commitment because some of those kids put me through the ringer, whether it was we’re gonna do gymnastics on a trampoline. And again, I’m in full costume doing gymnast on the trampoline, or we’re doing soccer drills with their soccer coach at their house playing football games. I mean, all kinds of stuff. I made a Yachty game for a kid that loves Harry Potter. And it was really a big part of getting work turned in because, and it’s the crazy thought they wanted to spend time with me. Like that’s what it was. And so it was like, yeah, absolutely. I’ll keep dressing up. I did over 50 plus Vater visits. It wasn’t just for my homeroom. It was for all of fourth grade. So I went over 50 visits and it was cool to see kids in their home and talk to them and meet their parents. It was a great opportunity for me to engage with parents as well. How is online learning, going, what can I do to support you? Do you guys have any questions and stuff like that? So
Eric Cross (08:39):
This thing of relationships is like leading to work completion, which isn’t, which isn’t always the, the thing that we think to as educators of like how, you know, work completion. A lot of times we think of like structures or you know, certain protocols that you do in class get work completion, but here you are addressing as Darth Vader. And, and you said students were turning in more work because they’re connected to, you saw an increase in, in yeah. Engagement.
Shad Lacefield (09:07):
And absolutely. And, and I remember even saying that to myself, like this is, this is what’s getting them. But it, it was, and as part of the Vader visit as well with the videos we recorded all of them and I said, I’m gonna make you a YouTube star. And so I would, I, I recorded them. I put ’em on my YouTube channel. And so a lot of the videos that are on my website, all those Vader visits are like the kids showing off and playing against the teacher. And I promise you, I didn’t take it easy on any one of those kids. Like when it was like a verse match, I went all out and I told ’em. I was like, if you beat me, you know, it’s gonna be like, you earned it.
Eric Cross (09:38):
What a great way to leverage, just what, what is relevant to our students? Like you used your platform and then now you’re showcasing them on your, you know, your platform or what you were using. And then they’re seeing each other. And I could just see, regardless of the grade level, like just students, like beam from, from getting that kind of positive praise through, through, you know a medium that doesn’t, that tends to be more of a, just content consumption, but you’re kind of watching other folks do stuff, but now it’s about them. Like, and they’re, they’re getting that attention directly. Now I have to ask about the Vader costume. Did you, did you buy it for this event or did you already have that Darth Vader costume in your closet?
Shad Lacefield (10:19):
I had parts of the costume, but not the complete costume. And honestly, the very first Vader visit I had, I had the Vader mask that makes sounds, and like you could talk and it makes you sound like Vader.
Eric Cross (10:29):
My dark saber is on order. Yes. And it keeps getting delayed from best buy. It’s supposed to arrive in April, but I do have dark staple and order that I ordered back in November. So the best to your point, I don’t know who doesn’t have one, I’m waiting for mine though.
Shad Lacefield (10:42):
There you go, come on. Best buy come through for us. So
Eric Cross (10:44):
You, you did all this investment in time and, and you created all this content, but then we went back in person. Were, were you able to bring this back into the classroom or any of the things that you had generated during distance learning back in the classroom? Or are you, are you using some of the things that you learned? Like what, or is it just completely separate and you’re just doing something completely different. Now
Shad Lacefield (11:04):
That’s a great question. So I still try to dress up at least once every week, if not once every other week just to make whatever we’re doing fun, cuz I already have costumes that were connected to the content that I was doing. So had I had made a character called captain Soundwave that will use when I’m teaching my amplify lessons over sound. And so then I, you know, I have that or I would have, you know, specific characters that were designed for certain lessons that I would do. And so I still
Eric Cross (11:32):
Lemme interrupt you real quick. Where did you get these character ideas from? Cause they are super creative. I clicked on one random one. And you have had like a, a knitted like skull cap and like some blue shiny like cloak and I like who is this guy? I think, is that him? Is that captain sound wave? That’s
Shad Lacefield (11:48):
That’s hilarious. That was, that was my attempted Elsa. Oh, that was yeah. Started buying more and more costumes and and making characters and putting costumes together. And so yeah, it just ends up being this thing where you never know when I’m gonna show up in a completely random costume and be like today, we’re getting ready to learn about how sedimentary rocks form. And I dressed in my rock outfit, which is the old school rock with the turtleneck and the gold chain with,
Eric Cross (12:16):
Wait, do you have a Fanny pack too?
Shad Lacefield (12:17):
I have a Fanny pack. Yes you have. Yep. You nailed it. And they’re like, what does this guy
Eric Cross (12:22):
Do? He raise the one eyebrow. Can you do the, the rock eyebrow? Oh yeah, you got this. Oh, people on the podcast. Can’t see. Chad’s got it down. He’s got it down. He’s got the, he’s got the eyebrow going. Okay, so you, so I feel like I can go on a tangent and talk about all your costumes that you have, but the thinking about this. So tons of engagement, younger people now taking like some of the principles that you’ve learned from this, how can, how can upper grades like bring this joy to their classroom? Like middle school students, you know, older kids sometimes, you know, they can, they’re still kids, but you know, they might not be the same thing as fourth graders. Like would you, do you have any ideas of like how teachers and upper grades can kind of take these elements that you’ve done and, and apply them?
Shad Lacefield (13:04):
Absolutely. So some of the things that you had talked about, like with YouTube can also be applied to like TikTok videos and things like that, that kids are, are willing to watch and, and be engaged in. And so those things, I feel like I’ve seen other middle and high school teachers really utilize in their classroom. But honestly, and this is a new initiative that we’ve started in our district. Minecraft has been something that a lot of kids play and are really engaged in and has shown an amazing engagement for all of our kids when it comes to science engagement, particularly. And so with that, so there’s 126 million active Minecraft players right now in the world. And Minecraft is one of the largest selling video games. The average age, cuz they’re always like, oh, Minecraft is for kids who actually the average age is like 24.
Shad Lacefield (13:51):
So a lot of the older kids are playing Minecraft as well with the younger kids. And with that in mind, it was a way when I looked at Minecraft and specifically like Minecraft educational edition came out and it was during COVID and it was free. So if you had a school email or it’s like the, what the go 365 account, you could get it for free and all of our kids got it for free. And so then, then we went from playing Minecraft on the computer as like a fun game to me looking at it and saying like, wait a minute. I feel like when I’m doing energy conversions, we can take Redstone and Minecraft and kids can now show how a simple system using different parts and devices can work and understand even more con creates how energy is converted from one form to another.
Shad Lacefield (14:39):
And so let’s make this a, a, a, an actual activity. Let’s take what I’m teaching in the classroom. And if they get done early as an enrichment piece, because there’s not a ton of science and enrichment activities at times for kids to be able to do, like, what do I do when I’m done, Minecraft ended up being that. And so I could have these elaborate worlds that I would build for them that they could then go and play and be super engaged in and show me way more on this Minecraft world, what they knew than what they were writing on paper sometimes, cuz I, you know, you’d get like a sentences out of them on paper, but then all of a sudden when they would build this elaborate system and you just had them record and talk, it was like, oh my gosh, you understand way more than I was thinking that you did with that last exit slip, an assessment that we did.
Shad Lacefield (15:25):
And so like, this is awesome. So then I went to my district and I actually proposed an idea what if we did tire Minecraft build challenges for the whole district? So our district has 37 elementary schools and I was like, I think this could be something that, you know, as we’re looking for science, curriculum engagement and making kids excited about learning science and stuff again, cuz that was always the hard part. I feel like sometimes with COVID everything kids lost this love of, of being in the classroom and, and, and learning and that it was like, you know, getting them to come back into the classroom and, and finding, learning fun again. It was like this, this started to get ’em excited and like, yeah, I get to play in Minecraft and I’m learning at the same time. And it was working for all kinds of content areas.
Shad Lacefield (16:07):
We’re doing a blast off to, to Mars. We it’s called blast off to us. We’re partnering with CLO of the future. They’re working with SpaceX. Our kids will actually get to send postcards to space and yes, it’s, it’s a super cool thing. And I love my district and all of the office of technology, individuals, Ashley Josh and Kelly for putting this together. And so it asks this question if you could a community in space, what would it be like? And the goal is that kids will write on the back what they want. And then we send this postcard off to space, they stamp it saying it’s been in space and the kids get to have it back and, and be able to use it. But what, what we decided, what we could do with Minecraft is what if they actually built the colony on Mars, like really research put time and effort into reading scientific articles about plants and how plants would grow and, and water and, and structures and apply all of that in a massive build challenge. And then that be, you know what we’re doing? That can be the answer to the question. And so it’s not just a couple sentences on a postcard, but it’s like a week or two week unit that pulls all this scientific content and standards that we’re working with and really allows kids to show so much creativity like on my Twitter I’ve been posting like pictures and stuff like that of some of the students builds. And I’m gonna continue to do that throughout the build challenge.
Eric Cross (17:26):
Now, are you using Minecraft EDU?
Shad Lacefield (17:28):
Yes. That is correct.
Eric Cross (17:29):
I love Minecraft EDU. Like it, it, you talking about it inspires me to, to try to dive back into it. One of the things sometimes I feel limited by is the time that I have and the things that we’re trying to cover. And it’s almost, it almost feels like we’re doing something wrong using a video game to teach, but it’s such a great educational tool. Like you said, you just said that students are able to show what they know in, in a way by creating something that’s different than if they would’ve just written it, but they’re actually creating, and this is one of the things, I guess you kind of hit on this, but I wanted to probe it a little more. Is do you have your students creating content like you do? Cause I kind of heard that they, you were, did you say that they were explaining or doing a video recording or describing it? How are they, how are they, how are they doing that work?
Shad Lacefield (18:17):
Yeah. So what they actually do is they’ll write a script and they will use Screencastify to record and then upload to Flipgrid. And then that way they can actually show their build to all of fourth grade. Since we weren’t allowed to be in the same class, like we were all departmentalized, so then we will have voting challenges. So after you record, you get to see everyone’s videos, you get to like and comment and leave feedback on their builds. So you can see what the other kids created. And then then from those initial videos and voting, we selected a certain of kids that then go on to the district level for our Minecraft build challenge. And then those videos are viewed by administration and other teachers to vote again. And then you end up having grade level winners and then an overall winner, which shout out to my boy in fourth grade, who was our overall winner, Eli, super proud of him.
Shad Lacefield (19:07):
He, he made this really, really space saving system, which was hidden stairs that ran off of Redstone and used motion, energy. And again, in his video, he talks about like how motion energy has changed to electrical energy and then back into motion through the process of how this hidden staircase would be in the wall. And then you’d be able to use this lever to then release that staircase. So you could go up and down but it was just, and again, when you, when you let kids talk about energy conversions and you let them build all of a sudden, you have kids making security systems for banks. Another kid that made a feeding system for kids for animals at the zoo, and it was just like, oh my gosh, I had no idea that this was what you guys could run out and do. When I, when I taught you how energy conversions work, that this is what you could produce and come over, like this is mind blowing. I love it,
Eric Cross (19:56):
What our kids can do and what they can create always kind of blows us away when we give them an opportunity to kind of have that freedom to, to create and take their knowledge and actually do something with it versus channel it into what, show me what, you know, but only do it like this. This is, this is the lane that you have to stay in. How do you get these ideas and, and stay, stay relevant? Like so many of the things like you’re touching, like pop culture, you, you have this hand in education technology, you have you’re, you’re doing video editing. Like where are you drawing from? Cause I’m just thinking like, as a teacher listening to this, that might be newer. And they go to the side like, oh my gosh, this, this guy is doing these so many things like where are you drawing from for inspiration or ideas?
Shad Lacefield (20:39):
I think a lot of it is like you say, when, when you stay relevant, it’s being engaged with your students and figuring out, or what are, what are they liking? And every year it’s gonna be different. And that helps you stay relevant. When you have conversations and you build relationships with your kids to figure out, you know, what’s going on. Because I was not a big Minecraft person. It was the group that came in that really challenged me to do Minecraft because it, it showed up on their Chromebooks one day and all of a sudden it’s like, oh, we can play Minecraft all the time. And I said, no, you can’t play Minecraft until that I’ve had training. And I know what’s going on because I’m super nervous about this new thing. And I wanna make sure you guys aren’t doing something that you’re not supposed to.
Shad Lacefield (21:13):
And like, they hounded me hardcore about you better do you need to do that training, Mr. Lacefield, you need to, we wanna play Minecraft. You better be doing this. Right. And so I was like, all right, man, I’ll, I’ll invest. I’ll, I’ll put some time into this training. And I’m so glad that I did yeah, again, that’s it just like building relationships and having those conversations help you realize like, what’s, what’s what are they interested in? What what’s going on and what would be really funny, even connecting that back to the costumes. What would it be really funny if I showed up in you know, today, princess Jasmine.
Eric Cross (21:42):
Yeah.
Shad Lacefield (21:43):
Been yes. Done that. That’s a great one. I,
Eric Cross (21:45):
I, I just went to the social studies page. I, and I stop laughing while you were talking. Cause I saw the princess Jasmine.
Shad Lacefield (21:52):
Oh yeah. Folks.
Eric Cross (21:53):
I’m telling you, you have to go, you have to go to his videos and see what he’s done. I mean, they’re just, they’re just amazing with my middle school students. They, I, I find myself having to be into things that I’m not normally into. And we have these intergenerational relationships, right? Like I think teachers are unique in this I aspect where I can connect with a 12 year old with what 12 year olds are in no matter where this 12 year old’s from. Cuz I get 12 year old culture. But sometimes when I go back into my adult world, like I forget that like, Hey yeah, haven’t watched a new anime you know, or, or whatever, you know, up
Shad Lacefield (22:26):
That. Yeah. No said too. And a kid will show up wearing a, a shirt to school and I’m like, I wasn’t the world’s that like, I’ve never even seen that before. And you’re like, okay, I’m gonna have to learn what that is cuz that yeah.
Eric Cross (22:38):
And then the next student asks you about, Hey, do you like, do you like these this game? I’m like, yeah, yeah, let me go Google that game real quick. Yeah, I’m totally into it. I’m downloading on my phone real quick. And, and now I’m connected to all kinds of obscure random interests, but to your, to what you said, it like, it helps keep us fresh, right? With I, with ideas, there, there is something that is super practical that you’ve done that you’ve created that I’ve encouraged teachers to do. And I think you really nailed it. On your site, you have these video tutorials. When I look at those, I, I think about how much time you must have saved yourself of not having to explain the same exact thing multiple times. Because you’ve created this virtual help section that allows students to log in amplify earth, check, Flipgrid, whatever. Like do you, when you’re, when you’re teaching students, do you, do you use those in direct students there so they can kind of support themselves? Or is that, what, how did that come to be when you, when you made these, these virtual tools? Because I could just imagine these are time savers for you.
Shad Lacefield (23:49):
Absolutely. Cuz again, like you said, it’s it saves on time. So a lot of when you have kids that are already visual learners as well, and they love watching YouTube and they learn stuff from YouTube, why not? I mean, make the video and then attach it to my Google classroom, keeping everything online. Everyone always has access. And by still having those videos, it allows kids to hear the directions multiple time, but on their time and at their pace. So then it’s posted on the assignment. So even though I probably still will give those directions verbally out loud if a kid forgets and maybe they feel a little nervous about asking in front of their peers, like, oh, how do I do this again? Or, oh, I don’t remember how to do that. That video is linked on there. So that way they can go back and watch it.
Eric Cross (24:28):
It’s almost like a little co-teacher that you have like a little aide that’s like, but it’s you, but it’s like a mini you who’s helping you out. I found that putting sometimes those tutorial videos on ed puzzle, where at different points in time, you can set it up so that at a certain timestamp, it asks a question and you can control it. So they can’t move faster past it until they respond to the question and you have the question be about whatever you just said. And then it, it syncs with Google classroom. So you can import all the grades and you can see how far through the video they got. But that was one other layer that I was able to do. So I can have some accountability and make sure that okay, everybody watched it and they answered all five questions of like, how do you do this?
Shad Lacefield (25:07):
Oh, see, now you’re sharing stuff with me, Eric, because I, I’m not as familiar with ed puzzle. I’ve used like near pod and per deck, but I mean just you saying that I’m like, okay, I need to check out ed puzzle and, and see what, what this is all about. Cause that sounds awesome.
Eric Cross (25:20):
Hey, I shared something with Chad and it it’s useful. I’m I’m feeling good right now. I’m feel I’m feeling good. So as we, as we kind of wind down one, couple questions I wanna ask. One of ’em is you’ve been in teaching for, for 15 years and I, I talk to you like right now and I get this energy and this vibe that’s just so upbeat, so positive. How do you stay fresh, fresh. And how did you stay fresh during a time when things have been so hard, you know, and it, and still is for so many educators, how do you stay encouraged? Like what, what have you done and, and to stay in, in education for, for this long,
Shad Lacefield (26:00):
I think it, it even goes back to like when I made my initial decision to switch my major to education, like I, I really felt like I found so thing that I thoroughly loved and enjoyed, and I always feel like you go through seasons. Like, and I definitely, when, when COVID hit, like you went through a season of where you start to feel again, that pressure like do I really like doing this as much as I thought that I like doing this and am I ready for this next thing? And then I just go back to just the, well, why did I do this to begin with? And, and it gets me, you know, excited to be like, I did it for the kids, like, and it’s about the kids. And I get joy when they’re laughing and smiling. So again, with the videos, it’s like, how can I make ’em laugh and smile because if they’re laughing and smiling and having a good time, I’m gonna get, you know, jacked and ready to start teaching again.
Eric Cross (26:48):
And I just hear that so much in what you’re saying is you’re serving your kids is, is being more than that building the relationship, that connection. And then through all that, the learning happens. The last question I wanna ask you is who’s one teacher that created a memorable experience for you or inspired you. Is it someone that you remember when you were in school or learn experience that just, that stands out to you to this day? Cuz as teachers, we remember thi like our kids remember us and it’s weird to be in that position to think that we’re gonna be that person. So is there anybody or anything that stands out to you that you remember from a, a teacher and experience?
Shad Lacefield (27:27):
Gosh, I have, I have a lot that you know, from my fifth grade science teacher, Mr. Goodman, who we did the ecology meet and the ecology team, and we went to OT Creek park and we competed against other schools about science, connected materials to my physics teacher in high school that let us build boats out of cardboard and take it to the only hotel in our town and the pool. And we had like boat races with the cardboard boats that we did. But really I, I go back to Squire boon and Claudia my manager and I remember not only was, she’s such a, a pivotal like getting me into teaching. But I remember the, the curriculum that we were using at the time that I was. And again, it goes back to what if I was to teach that curriculum, I would not still be a teacher because again, as sometimes you experience with curriculum, it can be boring and not engaging. And I was already putting my own flare on it at SQUI boon during the scout lessons. And I said, what if I just completely rewrote this curriculum? What if I made it really fun and put my own, spin on it? And, and she was like, absolutely, absolutely do that. And I feel like that encouragement as teachers, when we encourage kids to be creative when we encourage kids to, to take risk and to try new things we end up getting such amazing results that we didn’t even expect
Eric Cross (28:45):
Thought I out to Mr. Goodman for the ecology meet the physics teacher for the, the boat races, which are hilarious, by the way, if you’ve ever been able to watch students, did you make ’em at a cardboard?
Shad Lacefield (28:53):
We did. Yep.
Eric Cross (28:54):
Yeah. Those are hilarious to watch. And Claudia for giving the freedom to let you be a educational DJ and remix things to make it fun. Thanks for being on the podcast. Thanks for your inspiration and for sharing your stuff like publicly and letting other people see it and, and get ideas. It’s, I’m sure there’s more people than, you know, and more teachers than, you know, that are looking at that and getting their own ideas and coming up with their own. It might not be star wars, but coming up with their own inspiration, maybe it’s like Harry Potter or Lord of the rings or some like that.
Shad Lacefield (29:26):
Yeah. Whatever. You’re passionate about. Pull that in.
Eric Cross (29:31):
Thanks so much for joining me and Shad 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. That’s STEM@amplify.com and make sure to click, subscribe wherever you listen to podcasts until next time.
Stay connected!
Join our community and get new episodes every other Tuesday!
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Meet the guest
Shad Lacefield is a teacher at Garden Springs Elementary and part-time professor at Asbury University in Kentucky. Mr. Lacefield leads professional development in his district, and has been a guest speaker for Eastern Kentucky University, Campbellsville University, and Amplify Education. His topics include classroom managment, integrating techology, and student engagement. He earned his bachelor’s degree in elementary education from Campbellsville University in 2007, and his master’s in science from Southwest Baptist University in 2011. Shad has either taught or coached every grade K-12, and in his 14 years in education he has served as a lead teacher in literacy, math, science, and social studies. He currently coordiantes with the FCPS Office of Instructional Technology to plan Minecraft build challenges for elementary students, and is working on setting up a science field trip that turns a golf course into a STEM lab. During the first year of the pandemic, Shad dressed up in over 100 costumes to create a unique and engaging online learning experience for his students. He also created Vader Visits where he visited students at their homes dressed as Darth Vader to celebrate their online successes, and keep them encouraged during a challenging time. His creative teaching style, and over 50 “Vader Visits” with students, have been featured on WKYT-TV, LEX-18, Spectrum 1 News, and several local and college news publications. Shad lives in Lexington Kentucky with his wife Whitney Lacefield and their three children.
Check out his website, YouTube channel, and Facebook account!
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!
S2-01: How teachers are really feeling this school year
In this special solo episode, Eric Cross starts the season by sharing his personal journey as an educator, and how the difficulties of the last few years have shaped his mindset going into the upcoming school year. Eric also addresses teacher burnout and what inspires him to continue working as a classroom educator. Explore more from Science Connections by visiting our main page.
Eric Cross (00:02):
Welcome to Science Connection, Season Two. As we begin the next season, I thought it would be a good time to share my story. As the host, I get to ask people questions about their journey, but I’ve actually never shared much about my own. So I’ve taken some of my most frequently asked questions to guests and asked them to myself. I hope you enjoy.
Eric Cross (00:23):
So the origin story question, I think really gets to the heart of why a person does what they do, because so much of who we are, especially as adults and teachers, is a result of experiences that we had in our lives when we were kids or in school with other teachers. And my life’s no different. I was born to a 19-year-old single mom. And when you’re a young boy growing up, especially with a young single mom, you often look to older men in different positions as kinda like a surrogate or like a mentor. And you may not even tell them that they are that to you. You kind of keep it close to the chest. And that’s what I did growing up. One of the ones that really stood out to me is, in seventh grade, I went to a middle school here in San Diego that was called Keiller Middle School. And we were a magnet program that specialized in science. And they had this program that brought professors from the local universities and they did this high-level enrichment. They would even take us to the college campus and we would work in these labs as seventh graders. It was amazing. And one of the people there, his name was Dr. Tress, and he was a professor. And Dr. Tress took a liking to me. I reminded him of his son. We were doing this great embryology experiment. We would take purple sea urchins. And we would inject them with potassium chloride, which would cause them to spawn. And we would fertilize these eggs, and then we would run different experiments using them. And these were things that I had never done before. I had always loved science. I’d always loved tinkering and building things. But this was my introduction, really, to high-level biology and to higher levels of education. I didn’t—I didn’t have many figures like that in my life growing up. I mean, I’m a first-generation, you know, high school, college graduate. Many of these are first generations for me. So, this was a new experience. And so Dr. Tress really unlocked a core memory and was one of my first mentors, as far as academics are concerned. And during my seventh-grade year, I entered the science fair and won first place, which was a huge deal. They took us out to Balboa Park. We got to miss school for a week. We got to go to all the museums for free. It was the best. And I think at that point in time, it really solidified something in me that would lay dormant until later on in my adult life. High school, I was really fortunate: the high school I went to was Morse High School, not too far from Keiller, and they had an aeronautics program. So I was able to enroll in that aeronautics program. And I learned how to fly before I learned how to drive. And I had this great instructor named Mr. Klon, who was this like 6′ 4″, 250-pound hippie guy. And he—we would get in the plane and we would have these like philosophical conversations. And through that, especially looking back now as a teacher, I realized that he was making connections with me and investing into who I was as a person. And it was something that I so needed at the time. Because at home I didn’t have that. You know, my safe place, a lot of time, was school. It was my only structure. It was where I knew I would get encouragement. It was where I knew things were reliable and consistent. For a lot of people, and a lot of kids, their home life isn’t like that. School was that for me. So Mr. Klon, I mean, he was this authentic, you know, consistent person in my life and made a huge difference at this time.
Eric Cross (03:23):
After I graduated high school, I left home just to get away from a difficult environment. And I was homeless for a little while and that was a huge moment in my life. And around that time, an aunt found out and she said, “You’re gonna come stay with us.” And this was like this three-year process of me living with them in this, like, functional family that ate dinner together. And they went to the zoo. They had family passes. And they took family photos at Christmastime. This was all weird stuff. Like, I didn’t know—I didn’t know who did these things. It was—I felt like a puppy that like lived in a home that was like…it was a home that was just always kind of like violent or like just really toxic. And then it gets put into a healthy home and doesn’t know how to act. That’s how it felt. And this was around like 19, 20 years old. During that time I started putting myself through school. So I went to community college and I was broke as a joke. And so I couldn’t afford the textbooks while I was going. So I would just go to the bookstore, the Barnes and Noble bookstore in Mira Mesa here in San Diego. And I would stay there all night using the textbooks or using the books there for doing my work. And then I would just put the books back on the shelves. Because let’s just face it. Textbooks are expensive, brother wasn’t trying to pay for all that. So I really had to earn that time. So I was working full-time. I was going to school. And, eventually I got a job in working in finance with a really great friend who mentored me during my younger twenties. And I didn’t wanna be broke and finance made sense.
Eric Cross (04:44):
And so I did that for a little while, until I got to a point in my career where I was watching an episode of The Office, the UK version, the Ricky Gervais version, and a character said, “I’d rather be at the bottom of a ladder I want to climb than halfway up one I don’t.” And I realized, working in finance, that I was halfway up a ladder I never wanted to climb. So I wanted to move into something that, if I was gonna spend eight hours a day or 10 hours a day doing something, I wanted it to be something that actually filled me up inside. And this is how I got into teaching. So I had always been working with young people, specifically 12- to 18-year-olds, like a non-profit or volunteering, mentoring, after-school programs. And I’ve always managed to rationalize my job in the finance world as meaningful because it let me do the real work that fulfilled me. So the real work was working with the kids. But my day job, my, like, Clark Kent-type job, was just, you know, doing the finance thing of like helping people that have a lot of money make more money. Which at the end of my life, I look back and I said, “That’s not what I want my legacy to be.”
Eric Cross (05:43):
And when the finance crash happened in 2008, that’s when I think I started looking back on it and said, “If I’m gonna spend all my time doing something and spending 40 or 60 or 80 hours of my day of my week doing things, I want it to matter. And that’s when I decided to pivot and leave that field and go and get my master’s in education and get my teaching credential, teaching science specifically. Now, one of the questions we get asked a lot and I’ve been asked is, is “How has teaching changed as a result of the pandemic?” And I feel like this could be several podcasts in and of itself, and it’s also regional, because everybody’s experienced it differently, And we’re still experiencing it! That’s the crazy thing! It’s like, it’s not over, we’re still in it. And some places have innovated and pivoted and some places just did what they needed to and they are trying to go back to business as usual. But if anything has happened, the pandemic revealed how much more, how much schools are more than places of just content learning. For many students it’s where they have their only community, their structure, their emotional wellness. They get regular meals, access to tech, and adults that care about them that are outside of their family. The schools are so much more than that. I mean, my school, they were a place, like a hub, that was giving out food every single day during the pandemic to families that would kind of drive by. So for a lot of schools, they became places like that. It also…the pandemic revealed the intensity of the educator workload. I mean, being able to manage your family, having the capacity, to be a content expert, you need to be a counselor, a trauma-care specialist, a coach, an encourager, a tech expert.
Eric Cross (07:23):
I mean, the term mental health is now more common and starting to become prioritized. Now we’re focusing so much more on the whole child. And we know from research that how a child feels about themselves and their safety and their security impacts their ability to learn. So the more comfortable and safe a student feels in the classroom with teachers and with friends, the better they’re gonna be able to learn. And ultimately the higher they’re gonna be able to achieve. You can’t, you can’t have one without the other. In addition, I think less teachers, see themselves teaching into retirement. I think that’s a big thing. I read these articles about teacher shortages and I think the reality is it’s actually teacher exodus. It’s teachers leaving. And that’s been really difficult. I’ve had many friends who’ve left for the private sector. And I get it, especially if you’re one that has—if you’re the first in your family to graduate from college, with a STEM degree, to them taking a teaching position can mean walking away from a salary in the private sector that pays two or three times more.
Eric Cross (08:23):
And in many places around the country, in order to be a teacher and maintain a median standard of living, you need either dual income, multiple jobs, or a multi-generational household. For a lot of people it just doesn’t make sense. And even right now, today, as I’m recording this, I’m reading articles and getting text messages…and I received a text message three days ago from a teacher that said, “My goal this year is to just not resign.” And that’s where a lot of teachers are feeling right now: isolated, challenged, and under-appreciated. And Plato said, “What’s honored in a country is cultivated there.” And I’ve been looking at how teachers are honored and one of the ways is just, like, practical. Like, look, I gotta pay my bills. You know, love the Starbucks gift card. Love the CPK, the gift card. The cards, all those other things…but brother got a car payment. And at the end of the day, if we care about our kids, we need to take care of the people that take care of them. And there’s very practical ways for that to happen. And everybody in different sectors around the country is dealing with that in different ways. I think the pandemic also revealed, now the public can see how our kids don’t receive the same quality of education. And once you’re aware of that, you can’t put the genie back in the bottle. So once you see on Zoom or once you see in a meeting, or once you see on the news, that students in different areas, whether it’s the rural South or a suburb in Seattle, are not getting equitable educations, well, ultimately that impacts all of us. Now. It’s not all doom and gloom. Good things have come from, as a result of, the pandemic. Many schools have made progress towards narrowing the technology gap, ’cause they had to! ‘Cause you can’t do Zoom and you can’t do Google Meet and all that stuff with a packet! You gotta get those Chromebooks. And Chromebooks and the internet and access to tech is not a new thing. It’s been out for a long time. The technology gap is not a new thing. It’s been written about extensively, but all of a sudden districts and schools started figuring out how to close that gap. And that’s awesome. We didn’t want a pandemic to be the catalyst for that to happen. But at the end of the day, we started closing it. A lot of schools did an amazing job and districts did an amazing job with deploying the hardware, sending out buses with wifi, putting lessons and videos on USB sticks and dropping them off to parents who live in sparsely populated areas. I mean, there were so many stories that I’ve heard about schools and teachers just doing amazing things, going above and beyond what they needed to on behalf of kids.
Eric Cross (10:51):
I think in addition to that, there’s also been students and families are now having more options to personalize their learning. So we have this in-person model, we have this Zoom or kind of online model, and this hybrid model, and it hasn’t all been perfect, you know, at all. But some families have come out and said, you know what actually doing this hybrid model is better for my son or better for my daughter or better for my student, because they’re able to get the socialization, but also able to focus better at home than they are in a classroom of 36. And that’s legitimate. You know, we talk about personalized learning, but it’s not exactly personalized when everybody has to wake up at the same time, same schedule, go to the same, the same classroom of, you know, up to 40 kids, and do the same lesson. I mean, we have to be honest about our limitations with personalizing learning for students. And when we can provide more options and we give teachers the infrastructure to be able to use different platforms, then we’re able to personalize learning a lot more.
Eric Cross (11:51):
There’s also been an emphasis on the whole-child wellness. I think the spotlight on mental well-being heavily impacts their academic success, but counseling teams, social workers, school psychologists—I think more than ever we’ve realized the value that they bring to the schools. And unfortunately many of them have caseloads of 200 students or more. And they’re seeing students most often that are in crisis. And especially after the pandemic, we’re realizing how valuable they are and how much we need to, one, honor them and give them the support that they need, and also recruit more. Because as we start recognizing how our brains are impacted by the things that we’re dealing with, we’re also gonna see how that’s gonna impact our students’ performance. And we need the specialists in those positions to be able to support our kids. I think, last, I think more innovation and lesson design and how we assess students. And so we’ve been talking about in education just kind of critiquing: how do we assess what a student knows? How do we make what a student actually does at school relevant to real life? I mean, so many times I have students who’ve graduated that are like, “I feel like the things I learned in school, like, they’re not always transferable to real life. It helped me on a test, but like, I don’t know how to do my taxes.” Or “I memorized these facts, but I don’t really apply it in my job.” Or “The facts that I learned I could have actually learned on the fly in my job. I wish I would’ve actually focused on the skills or had an earlier opportunity to get some experience because when I’m trying to apply for a job, <laugh> they ask for experience and I’m 22 years old.”
Eric Cross (13:28):
And so all these things kind of come up. And so I think there’s been some great conversations around “how do we rethink what education looks like?” And there’s different pockets around the country that have been doing that, I think, really well. And I think it’s important for us as teachers to stay connected to those people who are kind of pushing the boundaries and thinking outside the box, because when we get siloed, it’s really easy to get calcified and cynical. I get it. And it impacts me too. But when we’re around those people who have those fresh ideas, who are really pushing the limits, it inspires us. And that’s something I think during the pandemic that I’m grateful that I was intentional about, is staying connected with other teachers. There’s a big question; Why do you continue your work in the classroom and what keeps you motivated? And I was thinking really hard about this question, because depending on <laugh>, depending on my day, I feel like my answer’s gonna be a little bit different. So I’ve had to step back from this 30-foot, thousand-foot perspective and answer the question. And my answer is this: I think because I still feel like I can be effective to influence positive change in my classroom with my students and within the larger education system as a whole. I think if I lost either of those two, then I’d rethink my profession. Look, I’m an innovator. I like asking “why” questions and things like that. And I’m not always the most popular person when you do that. But education is like just a huge ship. It doesn’t pivot on a dime. And asking why questions and pushing for change on behalf of kids isn’t easy, fun, or glamorous, but it’s it’s necessary. And I feel like over the last few years, I’ve been able to see these kind of glimmers of a trajectory change, at least where I am locally. And that’s something that has given me a lot of hope. I’m very fortunate to be connected to educators and people in leadership that are really about making a difference beyond just kind of the cliched platitudes. They actually wanna make systemic change, in a way that’s positive. And that’s been really helpful for me. So as long as I feel like I’m useful in the classroom for students, and as long as I feel like I’m bringing, I think change, on behalf of teachers and students and administrators and our community in a way that moves the ball down the field, that’s what keeps me motivated. And what I like to ask teachers when I close in the podcast is. “What teacher or teachers have inspired you?”
Eric Cross (15:54):
And for me, I think it would start off with the teachers who cared about me when they didn’t have to, in elementary school all the way through college. And there are numerous teachers. My science-teacher community of practice. For the last two years, I’ve been fortunate to spend every month, once a month, meeting with just a core group of science teachers that really care about some of the things that we are impacted by in the classroom. And when the pandemic was going on, we still met regularly. And because we’re not all teaching in the same place, we kind of were able to bring different perspectives to the table. I think the current classroom teachers and former classroom teachers that I have in my community really inspire me. The ones who are dedicated to opening doors for students. The graduate students that I teach at the University of San Diego, they keep me fresh. I love leaving teaching my 12- and 13-year-olds, and then driving down the street to the university and teaching 20somethings who are all about to be in the classroom. They come with new ideas, they’re asking questions, and I get to actually share things that I just did three hours ago. I think that’s one thing that continues to inspire me. And it’s one of the reasons why I love teaching at the University of San Diego. Their energy and enthusiasm is super-refreshing. And then all the teachers that are willing to take risks and fail forward, to try things different, to ask hard questions, to push the envelope. Teaching’s hard. It’s easy to point out the problems in education as a whole. But after we do that, it’s important to figure out the practical ways we can make the changes that we wanna see.
Eric Cross (17:23):
Now, that’s to say that if you have the capacity for it and the resources and the support. Some of us, we don’t. Some of us, we are on an island, and that’s a really, really difficult place to be, especially when you have family and kids to take care of. And you have to make decisions on what’s best for you and for your own students. We do this work on behalf of kids. And it’s one of the most honorable services a person can provide to our community. But one area for growth that I think we have kind of as a society, is teachers spend their lives, daily, on behalf of the future of our country. For other people’s children. They fall asleep at night worrying about other people’s kids. They spend their own money to create opportunities and experiences that students might not otherwise have. And it’s important that we collectively, and I know I’m preaching the choir when I say this, but this is one of my messages, is that we honor them in turn. We create programs that allow them to be able to afford housing. We create opportunities for them to be able to generate wealth. We create ways for them to be able to find rest, to get connection. And then internally we create systems where they can just work on themselves, fill themselves, get trained, and be whole, so they can bring their best self to the kids in front of them. That’s one of my personal platforms. It’s something that I think is vital. We gotta take care of the people that take care of our kids. So there’s a saying that says, “It’s better to light a candle than to curse the darkness.” And it takes one person to blow out a candle, but one candle can light thousands of other candles, without diminishing its own light. And that’s what we have to be. So my encouragement, teachers, as you’re going into this new school year, and you’re thinking about what’s going on, you’re thinking about all the challenges—and they’re there, and they’re real, and trust me, it’s not like some Pollyanna, like, “Hey, just be positive!” mindset and everything’s gonna be great—no, no, no, no, no. It’s not that. But my encouragement…if I can tell you one thing that’s helped me more than anything else, it’s being connected to other people who are candle-lighters. Because there are a lot of places that are gonna blow out the candle. It could be the staff lounge. It could be Twitter, it could be Reddit. It could be Instagram. It could be TikTok. It could be, you know, anybody. Someone next door to you. There’s a lot of folks that are gonna be willing to point out and say, “Look, this is what’s wrong.” But find the helpers. Find the people that are candle-lighters. And stay connected with them. Find that community. I can tell you for me, that’s been the thing that’s been able to help me sojourn through all of this—I couldn’t do this by myself—is being able to share my story with other teachers and knowing that I’m doing this work alongside of other folks who are doing this work, and I can share my story with them and listen to their stories, is something that’s been able to fill my cup. And so I hope I can do the same for you and for other people listening to other people I come in contact with.
Eric Cross (20:08):
Teachers, I wish you a great school year. Hang in there. Be those candle-lighters and bring your best self on behalf of the students. Thanks so much for listening. Now, we wanna hear more about you. If you have any stories you wanna share about the classroom, please email stem@amplify.com. That’s STEM at amplifycom.wpengine.com. And make sure to click subscribe wherever you listen to podcasts. And join our Facebook group, Science Connections: The Community. Until next time.
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.
Meet the guest
Eric Cross is a 7th grade science/technology teacher, grade level lead, and digital learning innovator for Albert Einstein Academies, International Baccalaureate schools. He is also an adjunct professor of learning and technology at the University of San Diego and a Google certified innovator. Eric earned a bachelor’s degree from Azusa Pacific University and a Master of Education from the University of San Diego. He had 17 years of experience working with at-risk youth and underserved populations before becoming a middle school teacher. By building relationships with students, colleagues, and the community, he has become an empowered leader in and out of the classroom. Through meaningful learning experiences centered around student agency, STEM has become accessible to students through highly engaging lesson design, thoughtful integration of digital tools, and culturally relevant pedagogy.
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!
Welcome, Utah K-8 reviewers!
Teaching is listening, starring Patti and Rod Lloyd
Meet Our Guest(s):
Patti Lloyd
Patti is a licensed social worker and elementary teacher now serving as the Meade River School counselor. Patti has a bachelor of arts degree in social work, a bachelor of science degree in elementary education, and 18 years of teaching experience. Patti was a social worker in Idaho prior to teaching, and is certified as an alcohol and chemical addictions counselor. She previously taught early childhood education and kindergarten. She is on the Board of Trustees of Ilisagvik College (the only tribal college in Alaska) and has worked for the North Slope Borough School District for 27 years. Patti is happy living in this beautiful place and loves the strong Inupiat culture surrounding her.
Rod Lloyd
Rodney Lloyd is a primary elementary teacher with a bachelor of science degree in elementary education and a master of arts degree in language and literature with specialization in reading instruction and intervention. Rod has certifications in math recovery and is working towards a master’s degree in elementary math instruction. Rod has 30 years of teaching experience and was selected as NSBSD Teacher of the Year for 2013 and 2024. He has been teaching a Kindergarten/first grade combination class but works with students of all ages. He will be working in an intervention role at Meade River School for the 2024-25 school year. Rod is also the current presidentMeade River School, School Advisory Committee (SAC) president. Rod loves living in the Arctic and learning from the cultural members he considers close friends.
Meet our host, Ana Torres.
Ana has been an educator for 30 years, working in both the K–8 and higher education sectors. She served as an administrator and instructor at various public and private colleges and universities and as a bilingual and dual language teacher, dual language math and reading interventionist, dual language instructional coach, assistant principal, and principal in K–8 schools. Ana is currently the Senior Biliteracy and Multilingual Product Specialist on Amplify’s product specialist team, and delivers literacy and biliteracy presentations across the nation. Ana’s passion and advocacy for biliteracy and multiculturalism has led her to educate leaders, teachers, and parents about the positive impact of bilingualism and biliteracy in our world.
Meet our Classroom Insider, Eric Cross.
Eric Cross is a middle school science teacher who hopes to someday be a lifelong educator, like the guests on Beyond My Years! In each episode, Eric connects with host Ana Torres to discuss her guests’ best insights gleaned from their long and rewarding careers in the classroom. Then, Eric talks about bringing some of their wisdom into his current classroom and busy life.
Transcripts and additional resources:
Quotes
“Even though they’re coming to me at five and six years old, they are coming with a lot of rich knowledge that I don’t have. And then if I remain open and work with them, I’ve got a lot to learn.”
“The people that have lived there for 10,000 years; they know how to live in the Arctic. There’s architectural or archaeological evidence of 10,000 years of continued occupation of that land. So they have a lot to teach us. They’re experts there.”
“I wish I could go back and tell myself, ‘Don’t be so concerned with what you’re teaching but how you’re teaching it.’ Really get into the community.”
“We’ve just got to be quiet enough, long enough to hear what our students are saying—or not saying.”
“When you do make a mistake, ‘cause you’re going to make cultural mistakes, we have to kind of own up to it and then ask for advice on how to fix it or how to not make that mistake again.”
“Enjoy it. Enjoy the kids. Take time to enjoy your job. I know teaching now is a very high-pressure situation. There is so much pressure on us and so much to do, but we can’t forget to take that time and enjoy it because if you enjoy it, your kids will enjoy it.”
“Teachers are taking care of the world. So now teachers take care of you.”
Standards are the 'what' and curriculum is the 'how,' with Sue Pimentel
Meet Our Guest(s):
Susan Pimentel
Susan Pimentel is a founding partner of two nonprofits devoted to accelerating student achievement, StandardsWork and Student Achievement Partners. For four decades her work has focused on advancing meaningful and enduring education reforms—characterized by stakeholder buy-in—that champion proven tools for increasing academic rigor and student preparation. She has served as lead writer of the Common Core State Standards for English Language Arts and Literacy and chief architect of the American Diploma Project, two initiatives designed to close the gap between high school and postsecondary demands. In addition, Susan served two terms on the National Assessment Governing Board, an independent, bipartisan board that sets policy for the national assessment. She became vice-chair of the body in her second term. One of her most widely-read publications includes a 2018 EducationWeek op-ed “Why Doesn’t Every Teacher Know the Research on Reading Instruction?” Others include “Reading as Liberation: An Examination of the Research Base” and “Scaling the “Dinosaur Effect”: Topic vs. Theme in Elementary Classrooms,” both co-authored with literacy experts Meredith and David Liben. She holds a bachelor’s degree in early childhood education and a law degree from Cornell University.
Meet our host, Susan Lambert
Susan Lambert is the Chief Academic Officer of Elementary Humanities at Amplify, and the host of Science of Reading: The Podcast. Throughout her career, she has focused on creating high-quality learning environments using evidence-based practices. Lambert is a mom of four, a grandma of four, a world traveler, and a collector of stories.
As the host of Science of Reading: The Podcast, Lambert explores the increasing body of scientific research around how reading is best taught. As a former classroom teacher, administrator, and curriculum developer, Lambert is dedicated to turning theory into best practices that educators can put right to use in the classroom, and to showcasing national models of reading instruction excellence.
Quotes
“Vocabulary is how we describe concepts. It's how we know how to talk to one another. And vocabulary development weaves its way through all four domains in the standards. All four—reading, writing, listening and speaking, and language.”
“What the standards say is, ‘Leveled texts are out and complex texts are in.’ There's no research behind assigning a level to students' reading and then sort of imprisoning them in that.”
“Text complexity level is critical for students to be able to do well when they leave school and also so they can independently read texts and other sorts of sources on their own as well.”
“So standards are really important, right? Because they allow a meeting of the minds in terms of this is what our students need to be learning. It's like a compact, if you will, with our students and our parents and the public to say, ‘This is what you can expect your students to be learning.’”
“The standards define the ‘what’ importantly: the level of complexity, the level of sophistication, etcetera. But the curriculum tells us how to do the ‘what’ well, and how to use the literacy research to make sure all students get access.”
“The more stuff you know, the better you're able to navigate the world. Whether that means as a citizen…as a worker…as a college student…as a mom or dad—whatever it is—the more you know about stuff, the better off and I think the happier life is. And certainly the happier kids' lives are when they're actually learning stuff.”
“The whole notion is that the content matters. What I'm reading about matters; and how I get through that content matters; and how I get access to that content matters—which means I'm building my knowledge slowly but surely.”