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Welcome, Idaho science reviewers!
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, 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, 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
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
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
Welcome, Utah K-8 reviewers!
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 Grade 7
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 seventh 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
Geology on Mars
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
Student role: Geologists
Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean.
Unit 3
Plate Motion 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
Student role: Geologists
Phenomenon: Rock samples from different U.S. regions look different, but have similar mineral compositions.
Unit 5
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 6
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 7
Chemical Reactions
Student role: Forensic chemists
Phenomenon: A mysterious reddish-brown substance has been detected in the tap water of Westfield.
Unit 8
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 9
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.
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 6
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 sixth 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
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 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
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
Ocean, Atmosphere, and Climate
Student role: Climatologists
Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.
Unit 7
Weather Patterns
Student role: Forensic meteorologists
Phenomenon: The strong storms in Galetown didn’t just begin. They have become more and more severe over the years.
Unit 8
Earth’s Changing Climate
Student role: Climatologists
Phenomenon: The ice on Earth’s surface is melting.
Unit 9
Earth’s Changing Climate Engineering Internship
Student role: Civil engineers
Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.
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.
Mystery Science
Our exclusive partnership with Mystery Science means you get our NGSS core curriculum plus two years of free access to Mystery Doug and his extensive library of captivating videos that deepen students’ understanding of each unit’s phenomenon.
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 Earth and Space 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 sixth 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
Geology on Mars
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
Student role: Geologists
Phenomenon: Mesosaurus fossils have been found on continents separated by thousands of kilometers of ocean.
Unit 3
Plate Motion 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
Student role: Geologists
Phenomenon: Rock samples from different U.S. regions look different, but have similar mineral compositions.
Unit 5
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 6
Ocean, Atmosphere, and Climate
Student role: Climatologists
Phenomenon: During El Niño years, the air temperature in Christchurch, New Zealand is cooler than usual.
Unit 7
Weather Patterns
Student role: Forensic meteorologists
Phenomenon: The strong storms in Galetown didn’t just begin. They have become more and more severe over the years.
Unit 8
Earth’s Changing Climate
Student role: Climatologists
Phenomenon: The ice on Earth’s surface is melting.
Unit 9
Earth’s Changing Climate Engineering Internship
Student role: Civil engineers
Phenomenon: Designing rooftops with different modifications can reduce a city’s impact on climate change.
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S1-09: Supporting K–8 science students in the digital world: Ricky Mason
In this episode, Eric sits down with Ricky Mason, chief executive officer of BrainSTEM. Ricky shares his passion for inspiring students into science careers, and his path from an engineering career with organizations like the Department of Defense, National Aeronautics and Space Administration, and the Central Intelligence Agency to starting BrainSTEM, an education program that develops creative digital tools to enable all teachers and students to dive deeper into STEM content. Ricky and Eric talk about representation in science classrooms and the importance of embedding fun within K–8 science content! Explore more from Science Connections by visiting our main page.
Ricky Mason (00:00):
I feel like comfort is where dreams go to die. And I’m still dreaming every night. So I’ll wake up, chasing them.
Eric Cross (00:08):
Welcome to Science Connections. I’m your host, Eric Cross. My guest today is Ricky Mason. Ricky is an engineer whose career included lead roles at the Department of Defense, NASA, and the CIA. Ricky transitioned to education as an adjunct faculty at the University of Kentucky. And while there, he founded BrainSTEM, an edtech company that developed a 3D virtual reality metaverse for STEM education. Today, BrainSTEM serves public school districts, private schools, and nonprofits. And in this episode, we discuss what led Ricky to creating BrainSTEM Metaversity, and how he’s using the metaverse to transform STEM learning for students. And now please enjoy my conversation with Ricky Mason. How did you, so like maybe going back doing your origin story, maybe you can talk about it, but brother, you don’t sleep. Talk about keep making moves, your hashtag, I mean, I was looking at your LinkedIn profiles, looking at your details. You get after it. I was getting tired just reading it. I was like John Hopkins, electrical engineering, real estate, starting companies. You must have that gene where it’s like four hours of sleep and then you’re like, ready to go.
Ricky Mason (01:19):
Yeah, man. My mom told me if I didn’t stay busy, then I’m in trouble. So when I was about 14, she told me that. I said, well, Mama, I guess I’m gonna stay busy then. And yeah, man, that’s just been my life. I feel like if I don’t keep making moves, then I’m in trouble. So, feel like comfort is where dreams go to die and I’m still dreaming every night. So I’ll wake up chasing them.
Eric Cross (01:44):
I feel like a kindred spirit with you. So, were you always interested in STEM like, was there something like a moment or a year where you remember you were like, this is my jam. This is what I’m gonna get into.
Ricky Mason (01:57):
Yeah, man. When it really clicked for me was in the fifth grade. I was at a school assembly and an IBM engineer came in and he brought a robot and he programmed it with punch cards right on the stage. And I got the opportunity to come up andyou know, put one of the punch cards in the robot to program it. And I asked him, I’m like, what is your job? He said, I’m a robotics engineer. And I went home right after that assembly and I said, Mom, that’s what I wanna do, become a robotics engineer. And my mom would take me to the libraries. Well, I felt like I was getting outta bible study on Wednesdays by going to the library. So I went there and I started researching robots.
Ricky Mason (02:39):
And at the time the robots that were popular were all being sent to space. And it was the spiritless. It was being sent to Mars. And I said, Mom, well, I guess I gotta become an astronaut if I’m gonna be a robotics engineer. And that’s kind of what set me out on that dream. And my mom started trying to find outlets for me to get involved in STEM, but it was really tough to find those outlets, you know, especially in that fifth to eighth grade range here in Kentucky. So that was kind of where it started for me man, when I knew that yeah, engineering is what I wanna do.
Eric Cross (03:14):
What does an electrical engineer do? I imagine there’s different types of specialties, but like, was there something that you specialize in that you focused on or was it, is it just kind of like a generalist field?
Ricky Mason (03:23):
Yeah, so I would say, yeah, man, it’s a huge field. So you could be doing anything from, you know, power, like power coming into your house. So those large power systems all the way down to nanotechnology and microchips. I like to tell people I’m a real full stack engineer, so my wheelhouse is kind of from the PCD, the little green computer chips, all the way to the cloud. Over my career, I’ve had some pretty cool jobs. One of those things was I was a test engineer for the army. So I got to test weapons up at Aberdeen Proving Ground for the Army. So I got to drive those weapons and test them before they went to theater there. After that,I worked at United Launch Alliance down at Cape Canaveral where I launched five rockets.
Ricky Mason (04:07):
So I was a part of the electrical ground systems team there where we were responsible for all of the electrical systems on the rocket while it was on the pad. Somonitoring the temperature of the rocket, the fuel, the entire system for safety while it was on that pad. And then finally I worked at the CIA as a computer engineer building data centers and as a data center architect for some of our remote systems and virtualizing our systems. So kind of had a broad spectrum of things there. And then finally coming back to the University of Kentucky as a research engineer and faculty. I developed drone technology for monitoring crops. So flying drones over crops with LIDAR, just like self-driving cars with high-definition cameras to pull in data about those crops, to help farmers determine about pesticides fertilizers, and the overall health of their crops from a remote location.
Eric Cross (05:10):
It’s so neat to hear you talk about it and to see how this is all built up to what you do now with BrainSTEM. How would you explain what BrainSTEM is? I know that’s your, that’s kind of your baby right now and what you’ve been working on a few years.
Ricky Mason (05:23):
Yeah, man, we started BrainSTEM in 2019 officially, but I would say BrainSTEM has been almost 10 years in coming. While I was in undergrad, I played football at the University of Kentucky. But I got hurt going into my sophomore year and that kind of shattered my dreams of football. And that’s when I really got back into engineering. One of my professors asked me to come to a robotics competition and I saw these third graders and sixth graders programming robots. And I’m like, oh my God, they’re programming robots! And I had no idea how to code or what to do with these things. And where was this a when I was a kid? And so I immediately bought one of those robots and taught myself how to program it <laugh> and then we started a robotics team in Lexington,there at a church.
Ricky Mason (06:10):
And we got a sponsorship from Lexmark to start that team. And that was kind of my first leap into STEM and teaching STEM and creating programs for students in STEM. I did that in undergrad and like I said, fast forward 10 years later, I’m teaching at the University of Kentucky and we’re struggling to recruit STEM students. Why aren’t students going into STEM? I hear too many adults tell me, oh man, I wish I would’ve done engineering, or I started out in engineering, but I left engineering or I wish I could go back to school for engineering or learn to code. And I’m like, I asked them like, why didn’t you do this? What happened? And often it’s like, it was the math. It was, oh, I didn’t get into it until I was in college. And I’m like, well, that’s the key.
Ricky Mason (06:52):
I knew I wanted to do this in the fifth grade. And I started with a plan in the fifth grade to achieve these goals and dreams. And I started doing that research and realizing that the same problem existed that I had. There was no outlet for kids to get involved in STEM, and so many kids have an affinity for STEM an early age. So we started BrainSTEM to provide access to STEM education and exposure STEM careers, STEM professionals, and just to STEM fields as a whole, because too often kids may know about the term, engineer, or the term, scientists, but they don’t really know what those people do or have a strong connection with the field or have any hands-on projects that they kind of done around those things or met anyone like me.
Ricky Mason (07:42):
I didn’t meet an engineer until I was in college. So that has really been impactful for some of the students that we’ve been able to touch. I had a family reach out to me. They moved to Lexington from California and they were like, man, I really want my ninth-grade son to get involved in engineering. So we started a weekend program with that one student and it went amazing. Like we competed in science fairs, we applied for different college programs and things like that. So it became an entire like mentorship program. And I’m proud to say that a year ago, he actually graduated with his bachelor’s in electrical engineering from your side of town, UCSB. It was just awesome to actually see this come full circle. And that’s kind of one of the first things that we did before we actually formalized as BrainSTEM University.
Eric Cross (08:34):
What will be like your elevator pitch for a teacher? If you were gonna say, this is what BrainSTEM does. I have the luxury of going through it on the site, but since we’re on a podcast, how would you kind of pitch it to people letting them know, like what, what does it do? Who does it serve?
Ricky Mason (08:47):
Yeah. So BrainSTEM provides STEM curriculum and STEM magnets for schools and nonprofits looking to increase access to STEM for K through 12 students. We also have launched our BrainSTEM Metaversity, a metaverse product for teachers to take their 2D Google classroom and convert it into a 3D metaverse classroom where students can collaborate during a 3D class. So all of your students show up as their avatars that they can select from our inventory of 150 avatars, and enjoy class in a 3D gameified Minecraft like World.
Eric Cross (09:26):
So I made my avatar by the way. It’s kind of tight, I have to say, it’s kind of tight. Hey, I’m gonna share. So those of you in the podcasts I’ll share it so you can see it. You’re not gonna be able to see it right now, but since I have the man himself I gotta share it with him just so I can get a reaction. So can you see that?
Ricky Mason (09:43):
Yeah. <laugh> That’s so good.
Eric Cross (09:44):
I feel like I wanna look like him though. I want him in real life. Like I want be able to switch to looking like my avatar
Ricky Mason (09:52):
<Laugh>
Eric Cross (09:54):
That was the first thing that I jumped on, when I went on your site, was making the avatar and I had so much fun doing it. I actually took longer than I probably wanna admit cause I was like customizing everything
Ricky Mason (10:03):
Yeah, man. It’s so fun. And that’s exactly what, you know, when you can show up as the person you want, it changes your whole being. I’ve seen kids that are quiet in class. They show up as their avatar and they’re talkative, they’re asking questions, they’re moving around the room, interacting with other kids. I feel like it’s almost like a superpower just to put your avatar on.
Eric Cross (10:25):
So what is something that a teacher could have their students go and learn or do if they, if they signed up,
Ricky Mason (10:31):
Let’s kick it off. So how we started with the metaverses, was teaching coding. So our first class was Minecraft and Python coding in the metaverse. So students showed up in the metaverse with our virtual instructor, that instructor led a lecture in the metaverse and then those students could collaborate on their Python games. So, they created and built the game in Python. We shared those games in the metaverse and we have our leaderboards that are in the metaverse, as they’re completing these challenges, including these games, then sharing them back in the metaverse with other students and getting that feedback on their game. So we’ve seen huge excitement from students when I can come back in and see my friend’s work. Like too often, students don’t get to see their work and that’s motivation to do better when I’m like, Jim’s gonna see my work. It’s amazing to see that motivation when students are sharing their work with other kids and not just their parent or just them and the teacher or seeing their grades. It’s been really cool to see.
Eric Cross (11:33):
You have that genuine audience too. Like that real-time feedback. And then like an authentic audience for students that makes everything seem, it takes it up a notch.
Ricky Mason (11:42):
Yeah, man. And then as we have built on this platform, so like you said with that avatar, so think if you created a really cool looking avatar and other students wanted to be that avatar, we have a way of sharing that avatar back into the world and in the inventory so that other students could then be your avatar. Or, if you create a world, we could then share that world back into the inventory, so the teacher could have class in a world that you created.
Eric Cross (12:07):
They’re creating content, not just consuming it. They’re actually creating content that could be shared across like grade levels or students.
Ricky Mason (12:14):
Well, we’re gonna say right now it’s just within your classroom. Eventually yes, we want students to be able to share that across school districts. At least we think that data will be probably limited to those kinds of realms as far as schools go. But you’ll be able to share this across sixth grade. We’ll be able to see what everyone in the sixth grade is doing in their STEM class or their game development class or their history class, per se, even if they’re giving back a presentation or what we have here in JCPS is backpack skills of success, where students are presenting on things that they’re learning that relate back to core competencies that the district is focused on. And I think that sharing those in the metaverse and doing those in the 3D world will be an awesome experience for students.
Eric Cross (12:56):
Are you seeing anything else as far as those skills that we see that are needed in coding? Is there something that the VR adds that was distinct from maybe just a kid with a Chromebook in his class that it’s just him in isolation doing the coding? Was there any like aha moments or surprises when they’re in the VR world doing this?
Ricky Mason (13:13):
I think the biggest thing is we could actually show them real examples of code working in other ways. Sofor example, if we’re working through loops, we can show them something looping. We can relate these functions to real-world things happening in the VR world so that they can see and better relate the actual concept with visuals, if that makes sense. So, you’re in loop Allen the whole time you’re learning about loops. You’re immersed in that kind of world. What we’ve seen is students really start to, you know, they it pick up and it clicks a lot faster because some of these concepts are so abstract for students to understand, when we can relate them to things in that world that they see that are in front of them, that they can grasp before we go to okay, type in “while” “”parentheses” <laugh> they can thenrelate that and pick up on those clues a lot better after they’ve seen those things in the world.
Eric Cross (14:09):
So they can actually visualize it in the metaverse. Whereas outside of it, it’s more just, just text-based coding and they’re not isolated. Like the first thing I’m thinking about is how like, with my own students, when they’re learning Sratch or Python, it’s not easy to share back and forth because they all are on individual accounts and they’d have to go on a different computer, or we’d have to find some way to publish it. And then all the kids would have to access it. But it sounds like in the metaversity classrooms, it’s easy for students in that same class to see each other’s work. Am I getting that right?
Ricky Mason (14:37):
Yeah. So most of our classrooms are limited to 24 students and in some of our breakout classrooms, we limit them to about eight students. Everybody can share their screen, so students can share their screen in the metaverse. They can share their video in the metaverse. They can share documents in the metaverse. They can share their, like I said, their code or anything that they want to share with other students. They can kind of do that. So it’s been a really cool product, I think, for students to almost find independence to work within a group, in an online setting. As they’ve been working through these problems online and remote it’s been really cool to see how they use the metaverse and break out. Even in a class, they can go off into a section because it’s all spacial. If you walk away, I can’t hear your conversation. So they can go into a little section within a metaverse class and have their own breakout. And a teacher can walk over to them. Okay. You guys are working over here. Let me walk to my next group. Just like in class. So it’s been really cool to see those students use the metaverse like that.
Eric Cross (15:41):
Just listening to you talk about this. One of the exciting things about emerging technologies or taking what the private sector does, and someone with a mind like yourself, and go, how do I use this for education? Like, that’s something that like excites me and you’ve run with it. But I just thought about, you’re doing an hour of code, you’ve created this metaverse, and you can bring in somebody, a professional into the metaverse, but they’re in, you know, the Bay area, but they could be a software engineer for Tesla or Google or anybody. Could they move around the metaverse and take a look at different students’ work and interact in that way.
Ricky Mason (16:17):
Yeah, man, we get in there. We make metaverse selfies. I drop Lambos in the metaverse, we take picture with Lambos. We have scavenger hunts in the metaverse. It’s a really awesome experience. And that’s one of the big things I think that is so powerful, is like you said, we could have that engineer, that celebrity, we could have Travis Scott, you know, in the world meeting thousands of kids motivating them because they met their STEM goals. They met their, you know, their testing school goals or whatever. These are things that kids really care about. If I get the Travis Scott avatar or the Elon Musk avatar, because I completed the Elon Musk rocket challenge, like that’s huge for me to show up in class as that avatar, like it’s just like Fortnite and it’s bringing all of those mechanics into the classroom.
Eric Cross (17:07):
When I hear you talk about the metaverse and I hear you talk about the potential of where you want to go with it, I think about my own students, and I think about, how they would really have a genuine interest and desire to want to do this and probably be doing it when they don’t have to, like at home at night wanting to go back into it and interact. And, you’re also building this virtual community. I mean, are you seeing that like, cause I’m hearing that?
Ricky Mason (17:28):
Yeah, man, building that community is huge. And I often tell people all the time, I want the STEM community to be just like the basketball community, the football community. I want students to have that camaraderie built around them for learning STEM and participating in STEM activities and competitions. Because when you see students out there at a robotics, they have the same zeal, the same, you know, everything that you find at a football competition. So we just have to get behind them and back those events with the same enthusiasm that we back sports. And that’s the environment that I want to create for STEM students and for that STEM community, because I longed for that community when I was in school. And like I said, I had it in football, but I wanted both. I wanted the best of both worlds. I wanted my robotics guys and my football guys to show up together here at the competition and have a good time.
Eric Cross (18:23):
You’re absolutely right. Like robotics STEM, these things, community helps fuel like people’s interest and working together. And it brings people from the outside who are seeking that community. Like, hey, my friends are doing this, I wanna kind of check it out. That’s how we recruit a wider swath of our population into it. So it’s not this kind of very narrow channel of folks who are going into STEM.
Ricky Mason (18:45):
If you can’t find that community. I mean for me, I felt like I was the only one playing football who was interested in robotics. So I never told anybody because I didn’t feel like that related to anybody within my vicinity. So I kept that to myself and that’s the biggest thing. I think if we get these kids just talking more about their interests, because a lot of them are interested in robotics and space and these STEM topics, but they don’t have anyone that’s really nudging them or asking them or piquing their interest in those spaces and saying, hey man, it’s okay to, you know, learn about robots. It’s okay to geek out on space. <Laugh> So that’s been my goal and that’s kind of why I felt like this was the time in my career for me to kind of do this, be a face for STEM education and inspire kids to chase their goals and dreams. Over my career, I’ve had some really cool jobs, but I felt like I could keep doing cool jobs, but I’m like at the right age to still connect with those students and inspire them to chase their dreams. And that’s why I feel like right now, man, it’s just an opportune time to get these students involved in STEM.
Eric Cross (20:01):
We don’t get that. Oftentimes, when we’re solely doing the cool job or simply in the private sector, we don’t get those experiences as much as we do when we’re able to actually serve our community or students or take our passion, our skill set, and use it to serve another person. I hear that like, as you describe what you’re doing now is like, there’s something beyond just, you know, the using your skills and doing cool stuff, but there’s something I hear. That’s helping people and actually doing something you believe in that resonates deeply in you. And I can hear it as you talk about it.
Ricky Mason (20:30):
It’s been just amazing to actually chart out that journey. Like I said, and like tell kids, like, no man, I’m from right up the block from you, cause I mean, I’m building this back at home in my hometown. And that’s the reason why I kind of came back to kind of do that in my hometown, because I really want to, you know, relate to those students and inspire, you know, students here. Nobody thinks about technology coming out of Kentucky and that’s been a gift and a curse, I guess, with launching BrainSTEM in Kentucky. When I first started, I said, we’re a STEM education company, people are asking me what is STEM? So, that was where we started out with this in 2019, all the way to, you know, hey, in 2020, we’re gonna launch a metaverse. A metaverse! What is that? It’s been amazing to try to change the minds of not only Kentuckians about STEM and the importance of STEM, but the world that a metaverse company is coming outta Kentucky. <Laugh>
Eric Cross (21:31):
The work that you’re doing and, it exists beyond you and you probably know this, but as a Black science educator out here in San Diego … We don’t see people who look like all of us in this work often, and I saw that you had created something, a network group, network and chill. And that was one of the things, we had touched on community, but I thought that that was so huge because we need each other.
Ricky Mason (21:55):
I feel like that was the biggest thing for us in engineering. Like I showed up to my first internship and I’m like, I mean, my boss was cool. Everything else was cool, but I just didn’t feel like, hey, this is a community for me. And I almost changed my major because of that. But I’m glad that I didn’t, it’s huge to have more of us represented in, in these spaces.
Eric Cross (22:16):
And you know, in engineering, especially when we look at the disproportionate, you know, men versus women. Like it’s not, you know, it’s not just culture, but it’s, you know, gender, all of these different things. And if we’re gonna change it, I think a program like yours that gets exposure to all kids and then giving them choice. What advice would you give to students? Or what advice I should say, do you give to students now? When you see like your younger self in the different kind of K12 grades who are thinking about their futures or they’re thinking about STEM, what do you say to them?
Ricky Mason (22:46):
So my biggest advice, man is start now. Whatever that big thing is, that big dream is that you have, what is that now? You’re thinking about planes. You’re thinking about robots. You’re thinking about RC cars, whatever that is. Let’s start now. Let’s get your hands on an RC car. Let’s take it apart. Let’s start coding. Let’s start thinking about those problems now. But the biggest thing is, is getting kids used to solving tough problems. Typically, most students that have an affinity for, you know, STEM — and you just know that that kid’s gonna go into, STEM — they’re problem solvers. They’re typically looking and seeking those tough problems and seeking opportunities to learn. That’s where I feel like it’s parents’ jobs to provide that environment to foster, that zeal. A five-year-old kid, we started our STEM program with them at the beginning of this month.
Ricky Mason (23:39):
The first day I came in after I told him I was a rocket scientist. And now he’s like, well, I wanna be a pilot. I said, if you pay attention to this class, we’re gonna get you started on your way to being a pilot. And he knows all the parts of a rocket and he knows a rocket needs an oxidizer. And he knows the fuselage, the wings, the wing flaps. He knows all the different parts of the plane and how the forces, the drag, the lift, the weight, he knows how those are working cause we talked about those in class and he has so much more confidence and it came all to fruition when a kid said, wow, I thought it was gonna be really hard to be a robotics engineer. And I’m like, no, that’s not gonna be that hard. That is exactly what we set out to do when we started BrainSTEM, was to break down those barriers and those walls and build that confidence and say, look man, you can do this. It’s easy.
Eric Cross (24:26):
Society doesn’t help much either because one of our terms, right, if something’s really hard, or if something’s not hard, we say it’s not rocket science. That implies that rocket science is really hard and inaccessible. If kids would hear that it kind of instills in their brain, okay. It’s really hard, it’s probably too hard for me. To that point to parents, it sounds like a lot of just exposure, like giving students the opportunity to be able to be exposed to these things and letting them create wonder from it.
Ricky Mason (24:51):
Yeah, man. I often tell parents we’re gonna set kids up to go pro no matter what,
Eric Cross (24:56):
And those skill sets transfer, whether they decide to go into coding or they decide to manage a bank, you’re still gonna be dealing with people. You’re still gonna be problem-solving. You’re still gonna have to come up with creative solutions to things. It sounds like through a program like this, they learn those skills early.
Ricky Mason (25:12):
Yes. And I think that one thing that parents don’t think about … We talk about all the STEM and we want smart kids, but we need those soft skills also within STEM. So those competitions, getting them involved in those communities with STEM students is really huge in presenting their ideas because oftentimes, you know, our STEM guys, we’re in a lab working and that’s where we love and that’s where we wanna be because we haven’t, you know, been prepared to talk and present our ideas. So I think that’s a huge part of what we have to teach our STEM students. And we do that by providing that community and those opportunities for them to, you know, do that.
Eric Cross (25:47):
Thinking about where you are now, looking back on your K-12 education, were there any teachers that stood out to you or that inspired you as I even just say that, can you think of a particular teacher or one or two?
Ricky Mason (26:00):
When I think about my teachers, my teachers really taught me to solve those tough problems and those subjects that you don’t kinda like <laugh>, cause I was always a great student, but my teachers helped me to focus on those subjects that I didn’t so much, you know, enjoy. So I enjoyed math and science, but English social studies, like why do I have to be here? I had two teachers during my high school career that really supported me in that regard, and helping me to be the best student all aroundfrom like I said, STEM to English and social studies, and making me realize that I have to be a well-rounded student if I’m gonna be truly successful. As far as engineering, man, I would say one guy, my teacher, Nick Bazar up at John Hopkins. During my master’s there, I had a really cool project. I got to do data forensics on a real live murder case. <Laugh> That was really inspiring because I’m like, wow, this is real life where my coding skills are being used in a jury trial <laugh>. And so that was a really cool experience to partner with my professor to kind of do that. I mean, that was just mind blowing that I got to help with that and that, I mean, he was using his programming skills to help solve a murder case.
Eric Cross (27:22):
What’s the best way for people to connect with you and follow your journey? And if a teacher’s interested and they’re listening to this and they’re hearing, okay, this metaverse coding thing sounds awesome, I want to get involved, I wanna know more, where can people go? What steps should they take to be able to get connected to you and what you’re doing?
Ricky Mason (27:40):
Yeah. So you can check us out at brainSTEMu.com, that’s brainSTEM, the letter “u” dot com and on all social medias, we’re BrainSTEMu or BrainSTEM University. Teachers, right now, we are doing our free course for teachers. So sign up at brainstemu.com. You can sign up for your class to get into a free metaverse experience, just so you can kind of check it out and get your class into the metaverse and see how your students like the metaverse, how you like teaching in the metaverse and convert one of your 2D lessons from Google classroom into a metaverse classroom. For me, I’m Ricky Mason, 5 0 2 on all social media platforms. So you can just type that in Ricky Mason502 and get with me there.
Eric Cross (28:28):
Nice. Well Ricky, I wanna thank you for sharing your story and creating BrainSTEM. And then for, I know you’re a man of tremendous talents and skills and accomplishments, and you’re focusing all that on not only being back in your community, but also creating something for younger versions of you and opening up opportunities that they might not otherwise have, as you said, folks are like, what is STEM? And that is exactly where we need those seeds planted. So thank you for doing that.
Ricky Mason (28:55):
Oh man, this is awesome. I appreciate you, man for hosting this podcast and providing this platform and sharing the message of, you know, educators and people in the space.
Eric Cross (29:07):
Thanks so much for joining me and Ricky today. Make sure to support Science Connections by subscribing wherever you listen to podcasts. And you could hear more from Ricky in our Facebook group, Science Connections the community, where you can check out all the exclusive content. Until next time.
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Meet the guest
Ricky Mason is the dynamic CEO and founder of BrainSTEM, an ed-tech company that developed a metaverse for education. His corporate career included lead engineer roles at the DoD, NASA, and CIA. Ricky transitioned to education as adjunct faculty at the University of Kentucky. While there, he started BrainSTEM to bring innovative technology and an inspirational curriculum to STEM education. Today, BrainSTEM serves public school districts, private schools, and nonprofits.
Follow Ricky on all social media @rickymason502
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!
1. Service Overview
As a provider of technology solutions to schools, Amplify’s commitment to data privacy and security is essential to our organization. This overview of Amplify’s Information Security Program describes physical, technical and administrative safeguards Amplify implements to protect student data in our care.
Company profile
Amplify Education, Inc. (Amplify) is a privately held company founded in 2000 as Wireless Generation. Amplify’s products include curriculum and instruction, assessment and intervention, professional development services and consulting services for K-12 education.
Service hosting
Amplify leverages Amazon Web Services (AWS) as its cloud hosting provider. Within AWS, Amplify utilizes Virtual Private Clouds (VPCs), which provide an isolated cloud environment within the AWS infrastructure. External network traffic to a VPC is managed via gateway and firewall rules, which are maintained in source code control to ensure that the configuration remains in compliance with Amplify security policy. In addition, the production VPCs and the development VPCs are isolated from each other and maintained in separate AWS accounts.
2. Policies & standards
Information security program
Amplify maintains a comprehensive information security program based on the National Institute of Standards and Technology (NIST) Cybersecurity Framework and the NIST SP 800-53 Rev. 5 family of information security controls. These provide a robust framework of best practices from which an organization can build its security policies and protocols based on identified risks, compliance requirements, and business needs. They cover critical practice areas, including access control, configuration management, incident response, security training, and other information security domains.
Governance
Amplify’s Information Security Committee has primary responsibility for the development, maintenance, and implementation of the Amplify information security program. The Information Security Committee is responsible for all information risk management activities within the company and is composed of technology, business and legal leaders from the organization. The Committee meets weekly and includes a dedicated VP of Information Security and a program manager to oversee, direct and coordinate its activities.
Policy execution
Adherence to the internal Amplify information security policy is an obligation of every Amplify employee. Amplify conducts a series of internal monitoring procedures to verify compliance with internal information security policies, and all Amplify employees undergo annual criminal background checks. In addition, any third-party contractors who come into contact with systems that may contain student data are contractually bound to maintain security and privacy of the data.
3. Data access controls
Access control
Amplify’s access control principles dictate that all student data we store on behalf of customers is only accessible to district-authorized users and to a limited set of internal Amplify users who may only access the data for purposes authorized by the district. Districts maintain control over their internal users and may grant or revoke access.
In limited circumstances and strictly for the purposes of supporting school districts and maintaining the functionality of systems, certain Amplify users may access Amplify systems with student data. All such access to student data by Amplify technicians or customer support requires both authentication and authorization to view the information.
Encryption
Data encryption is an important element of our protection of sensitive data at rest and in transit, and is reviewed and updated as appropriate annually, based on the latest standards and guidelines published by OWASP and NIST.
- In transit: Amplify encrypts all student data in transit over public connections, using Transport Layer Security (TLS), commonly known as SSL, using industry-standard protocols, ciphers, algorithms, and key sizes.
- At rest: Amplify encrypts student data at rest using the industry-standard AES-256 encryption algorithm.
4. Application security by design
Building the right roles into applications
Permissions within Amplify applications are designed on the principle that school districts control access to all student data. To facilitate this, Amplify applications are designed so that roles and permissions flow from the district to the individual user. For example, applications that offer schools a way to collect and report on assessment results have a web interface that requires district administrators to authorize individuals to view student data.
Security controls within applications are used to ensure that the desired privacy protections are technically enforced within the system. For example, if a principal is supposed to see only the data related to his or her school, Amplify ensures that, throughout the design and development process, our products restrict principals from seeing records for any students outside his or her school.
To make sure Amplify applications properly enforce permissions and roles, our development teams conduct reviews early in the design process to ensure roles and permissions are an essential component of the design of new applications.
Building security controls into applications
Amplify applications are also developed to minimize security vulnerabilities and ensure industry-standard application security controls are in place.
As part of the development process, Amplify has a set of application security standards that all applications handling student data are required to follow, including:
- Student data is secured using industry standard encryption when in transit between end-users and Amplify systems.
- Applications are built with password brute-force attack prevention.
- User sessions expire after a fixed period of time.
We also conduct manual and automated static code analysis as well as dynamic application security testing to preemptively identify vulnerabilities published by industry leaders such as OWASP (Open Web Application Security Project)
5. Proactive security
Risk assessments
Amplify periodically engages a security consulting firm to conduct risk assessments, aimed at identifying and prioritizing security vulnerabilities. The Information Security Committee coordinates remediation of the vulnerabilities. The security consulting firm also provides ongoing advice on current risks and advises on remediation of vulnerabilities and incident response.
Penetration testing
Amplify engages third-party firms to continually conduct application penetration testing. The purpose of this testing is to test for application security vulnerabilities in the production environment. We work with third party penetration testing program partners. Third-party testing involves a combination of automated and manual testing.
Vulnerability management
Amplify ensures that its systems are free of known vulnerabilities in several ways. Every production server runs vulnerability detection software that compares the installed software against a global database of known vulnerabilities. Secondly, we employ real time network monitoring that reports on any potentially malicious traffic. In addition, a third-party security firm continually reviews all of our system logs for potential security breaches. Lastly we continually test our applications against common malicious internet traffic. Violations in any of these areas will alert one of our operations teams, who are available around the clock.
In addition, Amplify participates in a private bug bounty program through HackerOne, working with the security community to find security vulnerabilities and support our efforts to keep our data and systems safe and secure.
Endpoint security
Access to production systems at Amplify is restricted to a limited set of internal Amplify users to support technical infrastructure, troubleshoot customer issues, or other purposes authorized by the district. In addition, Amplify requires multi-factor (MFA) authentication methods for access to all production systems. MFA involves a combination of something only the user knows and something only the user can access. For example, MFA for administrative access could involve entering a password as well as entering a one-time passcode sent via text message to the administrator’s mobile phone. The use of MFA reduces the possibility that an unauthorized individual could use a compromised password to access a system.
Infrastructure security
Network filtering technologies are used to ensure that production environments with student data are properly segmented from the rest of the network. Production environments only have limited external access to enable customers to use our web interfaces and other services. In addition, Amplify uses firewalls to ensure that development servers have no access to production environments.
Other measures that Amplify takes to secure its operational environment include system monitoring to detect anomalous activity that could indicate potential attacks and breaches.
Security training
At Amplify, we believe that protecting student data is the responsibility of all employees. We implemented a comprehensive information security awareness training program that all employees undergo upon initial hire, with an annual refresher training. We also provide information security training and annual social engineering tests for specific departments based on role.
6. Reactive security
Monitoring
Intrusion detection and prevention systems (IDS/IPS) are in place to analyze the network device logs, monitor the network and report anomalous activity for appropriate resolution.
Incident response
Amplify maintains a comprehensive Security Incident Response Policy Plan, which sets out roles, responsibilities and procedures for reporting, investigation, containment, remediation and notification of security incidents. Amplify works with reputable firms for incident response and digital forensics support, as well as annual table-top exercises in coordination with cybersecurity experts.
Business Continuity Planning and Disaster Recovery
Amplify maintains a comprehensive Business Continuity Planning and Disaster Recovery Plan (BCP/DR), to guide personnel in procedures to protect against business disruptions caused by an unexpected event. The plans and related operations processes are tested on a semiannual basis, with ensuing operations improvement and remediation work.
7. Compliance
Audits
In addition to penetration testing and other proactive security testing and monitoring outlined above, Amplify undergoes annual SOC 2 Type 2 examinations of controls relevant to security. The examination is formally known as a Type 2 Independent Service Auditor’s Report on Controls Relevant to Security. The most recent examination was conducted by Schellman & Company, LLC and covers the period from April 1, 2024–March 31, 2025. The report states that Amplify’s systems meet the criteria for the security principle and opine on management’s description of the organization’s system and the suitability of the design of controls to protect against unauthorized access, use, or modification.
The Type 2 report also opines on the operating effectiveness of controls over the review period. This means that our auditors confirmed that we have continued to follow established security controls over the period of time of the review.
Certifications
SOC 2: Amplify successfully completed the SOC 2 Type 2 examination of controls relevant to security (see above, under “Audits”).
Privacy
Amplify’s products are built to facilitate district compliance with applicable data privacy laws, including FERPA and state laws related to the collection, access and review and disclosure of student data. Amplify’s Customer Privacy Policy describes the types of information collected and maintained on behalf of our school district customers and limitations on use and sharing of that data.
8. Supporting documentation
In the course of customer security assessment, the following documentation can be provided by Amplify upon customers’ request:
- Penetration Testing Report
- Risk Assessment Report
- SOC 2 Type 2 Report
9. Report a vulnerability
To report a security vulnerability, click here.