Sphero SPRK+

Solar SPRK+ Unit Overview

Grades:
6-8
Unit:
Solar SPRK+
Description:

This unit incorporates basic programming knowledge and solar energy into an engineering design challenge using Sphero SPRK+ robots. The theme for this challenge centers on the idea of Mars rovers, and the challenges faced in space exploration, specifically...

Energy Content:
Batteries & Storage,
Circuitry,
Electrical Energy,
Electronics,
Solar Photovoltaic
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More Details Less Details
Learning Goal(s):
Students will develop tools to use in the Engineering Design Process.Students will learn drag and drop programming with Sphero Edu (formerly Lightning Lab).Students will determine how series and parallel circuits affect voltage and current.Students will understand how to use photovoltaic sources to charge a SPRK+.Students will design a chariot to carry a photovoltaic power source for a SPRK+.Students will learn to program a SPRK+ ball and chariot through a maze.
Pedagogy & Practice:
21st Century Skills Development,
Engineering Design,
Group Work/Collaboration,
Hands-on Materials,
Project-Based Learning,
Research-Secondary
NGSS Science and Engineering Practices:
1: Asking Questions and Defining Problems,
2: Developing and Using Models,
5: Using Mathematics and Computational Thinking,
6: Constructing Explanations and Designing Solutions,
8: Obtaining, Evaluating, and Communicating Information
Author:
Deb Frankel
Relevant NGSS PE:
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3
Other Subjects Covered:
Computer Science,
ELA: Speaking & Listening,
ELA: Vocabulary Development
Estimated Activity Length:
10 hours
Resource Type:
At-Home,
Curriculum,
Engineering Challenges,
Instructional Resource,
Video
Source:
Perot Museum of Nature and Science
Published:
2020
Last Updated:
2021
Intended Grade Level:
3-5,
MS,
HS,
OST,
Post Secondary
Resource Link(s):
Report Broken Link
Description:

An at-home engineering challenge using simple materials to design, build and test a water-powered turbine. Accessible to nearly all ages.

Location:
National
Energy Content:
Electricity and Magnetism,
Electricity Generation,
Hydropower,
Sources of Energy
NGSS Disciplinary Core Idea:
ESS2.C: Water on Earth,
ESS3.A: Natural Resources,
PS2.A: Forces & Motion,
PS2.B: Interactions Between Forces,
PS3.A: Energy Definitions,
PS3.B: Energy Conservation & Transfer,
PS3.C: Energy & Forces
Pedagogy & Practice:
Engineering Design,
Group Work/Collaboration,
Hands-on Materials,
Multiple Learning Styles,
Phenomena-Driven Instruction,
Project-Based Learning,
STEAM/Arts
Other Subjects Covered:
Environmental Sciences,
Math: Addition, Subtraction, Multiplication, Division,
Math: Measurement
Electric Current Induction

Wave Attenuator Unit Overview

Grades:
6-12
Unit:
Wave Attenuator
Description:

Through a series of learning experiences, students will experiment with the basic concepts of motion to electrical energy transformation. Students start by building a series of models that demonstrate the interactions between magnetic and electric fields....

Energy Content:
Electrical Energy,
Electricity and Magnetism,
Electricity Generation
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More Details Less Details
Learning Goal(s):
1. Students will demonstrate energy transfer through space using electromagnetic phenomena. 2. Students will design a model that demonstrates that a current-carrying wire can induce magnetism. 3. Students will define and build an electromagnet. 4. Students will demonstrate electromagnetic induction. 5. Students will describe and model the energy transfer and transformation in a wave attenuator. 6. Students will build a wave attenuator using a diagram and selected materials. 7. Students will test the model wave attenuator they built. 8. Students will investigate variables that may affect the output of an energy conversion device (wave attenuator). 9. Students will interpret data to identify which variables increase electrical output for these model wave attenuators. 10. Students will communicate results from scientific inquiry to identify factors that are important to optimizing the design of a wave attenuator.
Pedagogy & Practice:
21st Century Skills Development,
Engineering Design,
Group Work/Collaboration,
Phenomena-Driven Instruction,
Project-Based Learning
NGSS Science and Engineering Practices:
1: Asking Questions and Defining Problems,
2: Developing and Using Models,
3: Planning and Carrying Out Investigations,
5: Using Mathematics and Computational Thinking,
6: Constructing Explanations and Designing Solutions,
7: Engaging in Argument from Evidence,
8: Obtaining, Evaluating, and Communicating Information
Author:
Tabatha Roderick
Relevant NGSS PE:
MS-ESS3-1,
MS-ETS1-1,
MS-ETS1-4,
MS-PS2-4,
MS-PS3-5
Other Subjects Covered:
ELA: Informational Text,
ELA: Speaking & Listening,
Math: Measurement
Estimated Activity Length:
10 hours
Resource Type:
Curriculum,
Instructional Resource
Source:
Washington Green Schools
Published:
2021
Last Updated:
2021
Intended Grade Level:
3-5,
MS
Resource Link(s):
Report Broken Link
Description:

Washington Green Schools guides and supports students and school communities to be leaders for a healthy environment. As part of their efforts to promote sustainable schools, they have developed a series of games and activities to help students understand energy use in their school and engage in conversations about how to reduce their energy use and clean up their sources of energy.

Location:
National,
West/Pacific NW
Energy Content:
Energy & Society,
Energy Efficiency,
Sources of Energy
NGSS Disciplinary Core Idea:
ESS3.A: Natural Resources,
ESS3.C: Human Impact,
ESS3.D: Climate Change
Pedagogy & Practice:
21st Century Skills Development,
Community Engagement,
Establishing a Culture of Science,
Field Work,
Group Work/Collaboration,
Place-Based Learning,
Project-Based Learning,
Research-Primary
Other Subjects Covered:
Environmental Sciences,
ELA: Writing,
Math: Addition, Subtraction, Multiplication, Division,
Math: Measurement,
Math: Ratios & Proportions
Resource Type:
Pedagogy,
Phenomena,
Podcast
Source:
NGS Navigators Podcast
Published:
2019
Last Updated:
2021
Intended Grade Level:
PreK-2,
3-5,
MS,
HS,
OST,
Post Secondary
Resource Link(s):
Report Broken Link
Description:

NGSNavigators podcast featuring Dr. Daniel Morales-Doyle, who discusses powerful impact of a justice-centered science pedagogy, which is one of the core pedagogies that informs CE's approach. He gives examples of what this looks like throughout different grade bands. He specifically shares a high school chemistry unit he taught in Chicago. In the show notes, find his research and similar articles of the impact of justice centered science pedagogy.

Location:
National
Energy Content:
Energy & Society,
Energy Equity and Justice
NGSS Disciplinary Core Idea:
ESS3.A: Natural Resources,
ESS3.C: Human Impact,
ESS3.D: Climate Change
Pedagogy & Practice:
21st Century Skills Development,
Community Engagement,
Justice-Centered Learning,
Culturally Sustaining,
Establishing a Culture of Science,
Phenomena-Driven Instruction,
Place-Based Learning,
Project-Based Learning
Other Subjects Covered:
Environmental Sciences,
Social Sciences: Analysis,
Social Sciences: Civics,
Social Sciences: Economics,
Social Sciences: Geography,
Social Sciences: History,
Social Sciences: Multicultural Studies
Resource Type:
Grants/Funding,
Mentorships,
Teacher Externship
Source:
Murdock Charitable Trust
Published:
2020
Last Updated:
2020
Intended Grade Level:
HS,
Post Secondary
Resource Link(s):
Report Broken Link
Description:

This unique program pairs high school science teachers with a mentor doing cutting-edge research in an academic lab or a lab associated with another nonprofit institution. The Murdock Trust awards approximately 25 Partners in Science grants each year to fund these teacher-mentor research opportunities in the Pacific Northwest. Our goal is to help teachers bring knowledge from the research lab directly into the classroom to promote hands-on science education. 

Location:
West/Pacific NW
Energy Content:
Advanced Energy Careers,
Batteries & Storage,
Energy & Society,
Energy Equity and Justice,
Renewable Natural Gas,
Biomass Energy,
Circuitry,
Electricity Generation,
Electronics,
Energy Efficiency,
Fuels,
Geothermal Energy,
Hydrogen,
Hydropower,
Light (Visible),
Materials Science,
Next Generation Manufacturing,
Ocean Thermal Energy Conversion,
Smart Grid,
Solar Photovoltaic,
Solar Thermal,
Sound,
Sources of Energy,
Thermal Energy (Heat),
Tidal Energy,
Transportation,
Wave Energy,
Wind Energy
Pedagogy & Practice:
Career-Connected Learning,
Establishing a Culture of Science,
Hands-on Materials,
Phenomena-Driven Instruction,
Place-Based Learning,
Project-Based Learning,
Research-Primary
Other Subjects Covered:
CTE: Career & Technical Education
Resource Type:
At-Home,
Data,
Energy Program/Initiative (Nonprofit/Industry),
Instructional Resource,
Interactive,
Visualization/Simulation
Source:
The Nature Conservancy
Published:
2020
Last Updated:
2020
Intended Grade Level:
MS,
HS,
Post Secondary
Resource Link(s):
Report Broken Link
Description:

An interactive map that examines the opportunity and impact of wind development in the Great Plains states, with an opportunity for students to explore siting of wind facilities using factors that professionals would be required to consider. Great for both tech skills and problems solving skills development.

Location:
National,
West/Pacific NW,
Rockies,
Plains,
Midwest,
South,
Southwest
Energy Content:
Energy & Society,
Sources of Energy,
Wind Energy
NGSS Disciplinary Core Idea:
ESS3.A: Natural Resources,
ESS3.C: Human Impact,
LS4.D: Biodiversity & Humans
Pedagogy & Practice:
21st Century Skills Development,
Engineering Design,
Phenomena-Driven Instruction,
Place-Based Learning,
Project-Based Learning
Other Subjects Covered:
Environmental Sciences
Arduino Angler Design

Illuminate Me: Merging Conductive Sewing, Technology, and Solar Power

Grades:
7-12
Unit:
Illuminate Me
Description:

Light up your clothing using solar power! For this unit, students will attach thin, flexible solar modules to a bike helmet and recharge NiMH rechargeable batteries for a renewable energy battery pack. The rechargeable batteries will be used to light up...

Energy Content:
Batteries & Storage,
Circuitry,
Electrical Energy,
Electronics,
Solar Photovoltaic
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More Details Less Details
Learning Goal(s):
1. Students will design and sew a wearable circuit using conductive thread. 2. Students will program a wearable microcontroller to light up garment with bright LEDs. 3. Students will incorporate solar power into a wearable garment project by recharging NiMH batteries for a renewable energy battery pack. 4. Students will apply knowledge of circuitry and energy transfer to maximize design.
Pedagogy & Practice:
21st Century Skills Development,
Project-Based Learning,
Hands-on Materials,
Engineering Design
NGSS Science and Engineering Practices:
2: Developing and Using Models,
5: Using Mathematics and Computational Thinking,
6: Constructing Explanations and Designing Solutions,
7: Engaging in Argument from Evidence,
8: Obtaining, Evaluating, and Communicating Information
Author:
Kristy Schneider
Relevant NGSS PE:
MS-ETS1-1,
MS-PS1-3,
MS-PS3-5,
HS-ETS1-2,
HS-ETS1-3,
HS-ETS1-4
Other Subjects Covered:
Computer Science,
ELA: Speaking & Listening,
ELA: Vocabulary Development,
Math: Graphing & Representation,
Math: Measurement
Estimated Activity Length:
10 hours
Resource Type:
Apprenticeships,
Curriculum,
Energy Program/Initiative (Nonprofit/Industry),
Engineering Challenges,
Field Trips,
Grants/Funding,
Instructional Resource,
Organizations & Possible Partners,
Scholarships
Source:
Department of Energy
Published:
2020
Last Updated:
2020
Intended Grade Level:
PreK-2,
3-5,
MS,
HS,
OST,
Post Secondary
Resource Link(s):
Report Broken Link
Description:

STEM Rising inspires, educates, and sparks lifelong success in STEM by sharing resources & events from the National Labs, National Nuclear Security Administration, and program offices. View our STEM resources for students, teachers, and workforce

Location:
National
Energy Content:
Advanced Energy Careers,
Batteries & Storage,
Energy & Society,
Energy Equity and Justice,
Renewable Natural Gas,
Biomass Energy,
Electrical Grid (Transmission & Distribution),
Electricity Generation,
Energy Efficiency,
Energy Fundamentals,
Fuels,
Geothermal Energy,
Hydrogen,
Hydropower,
Smart Grid,
Solar Photovoltaic,
Solar Thermal,
Sources of Energy,
Tidal Energy,
Transportation,
Wave Energy,
Wind Energy
NGSS Disciplinary Core Idea:
ESS2.A: Earth Materials & Systems,
ESS2.D: Weather & Climate,
ESS3.A: Natural Resources,
ESS3.C: Human Impact,
ESS3.D: Climate Change,
PS3.A: Energy Definitions,
PS3.B: Energy Conservation & Transfer
Pedagogy & Practice:
Career-Connected Learning,
Engineering Design,
Establishing a Culture of Science,
Place-Based Learning,
Project-Based Learning
Other Subjects Covered:
Computer Science,
Environmental Sciences,
CTE: Career & Technical Education
Resource Type:
Energy Program/Initiative (Nonprofit/Industry),
Instructional Resource,
Curriculum,
Engineering Challenges
Source:
KidWind
Published:
2020
Last Updated:
2020
Intended Grade Level:
3-5,
MS,
HS,
OST
Resource Link(s):
Report Broken Link
Description:

Two really fantastic and engaging engineering challenges held both nationally and online for grades 4-12: Wind Engineering and Solar Structures. Educators and students are provided with scaffolded lessons for engaging in the fundmanetal content of the challenge, as well as guidance for how to prepare and structure the challenge. Challenges can be run at the class, school, district, or regional level and the in-person challenge includes regional and national competitions. Kidwind also provide professional development opportunities for educators.

Location:
National
Energy Content:
Circuitry,
Electrical Energy,
Electricity Generation,
Solar Photovoltaic,
Sources of Energy,
Wind Energy
NGSS Disciplinary Core Idea:
ESS3.C: Human Impact,
ESS3.D: Climate Change,
PS2.A: Forces & Motion,
PS2.B: Interactions Between Forces,
PS3.A: Energy Definitions,
PS3.B: Energy Conservation & Transfer,
PS3.C: Energy & Forces
Pedagogy & Practice:
Community Engagement,
Engineering Design,
Group Work/Collaboration,
Hands-on Materials,
Project-Based Learning
Other Subjects Covered:
ELA: Vocabulary Development,
Math: Addition, Subtraction, Multiplication, Division,
Math: Geometry,
Math: Measurement,
Math: Ratios & Proportions

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