Solar Mobile

Solar Mobile Design Challenge Unit Plan

Grades:
6-8
Unit:
Solar Mobile Design Challenge
Description:

This unit involves students learning about transferring solar energy to small motors, exploring the center of gravity and testing light sources (including the sun). The culminating engineering design project gives students the chance to pull...

Energy Content:
Circuitry,
Electricity and Magnetism,
Energy Efficiency,
Materials Science,
Solar Photovoltaic
+
-
More Details Less Details
Learning Goal(s):
Students will design circuits using various solar panels in order to power motors with propellers. Students will learn about solar energy transfer in order to power the motors on their solar aircraft.Students will research an aircraft and draw an outline of the aircraft onto foam board. Students will explore the concept of center of gravity. Students will test the efficiency of various light sources (incandescent, fluorescent, LED, halogen) for usage by a PV cell.Students will use their prior testing results and knowledge to engineer a solar-powered mobile. Students will work to transfer the most energy from the solar panels considering all the tested variables in order to power the fastest, most efficient mobile.Students will demonstrate and explain why their solar mobile should be chosen for the solar mobile display in the children’s museum. 
Pedagogy & Practice:
Engineering Design,
Group Work/Collaboration,
Hands-on Materials,
Phenomena-Driven Instruction,
Project-Based Learning,
STEAM/Arts
NGSS Science and Engineering Practices:
1: Asking Questions and Defining Problems,
2: Developing and Using Models,
3: Planning and Carrying Out Investigations,
4: Analyzing and Interpreting Data,
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-ETS1-3,
MS-ETS1-4,
MS-PS2-2,
MS-PS3-5
Other Subjects Covered:
ELA: Informational Text,
Math: Measurement
Estimated Activity Length:
0 sec
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
+
-
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
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
+
-
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
Photovoltaic Module

How a Solar Cell Works: Photon Simulation

Grades:
4-8
Description:

The purpose of this activity is to simulate the movement of electrons at the p-n junction to create an electrical current. Students will play a modified game of musical chairs, where teams will compete against each other while creating their own...

Energy Content:
Electrical Energy,
Electrons,
Solar Photovoltaic
+
-
More Details Less Details
Learning Goal(s):
To understand how a solar cell operates on the atomic level, through a simulation experience
Pedagogy & Practice:
Group Work/Collaboration
NGSS Science and Engineering Practices:
8: Obtaining, Evaluating, and Communicating Information
Author:
Erin Sturtz
Relevant NGSS PE:
4-PS3-2,
MS-PS3-2,
MS-PS3-5
Other Subjects Covered:
ELA: Writing
Estimated Activity Length:
50 min
Sources of Energy

Energy Review: Practical and Technical Perspectives—What is Energy?

Grades:
4-8
Description:

Students will take a short field trip around the school to identify different types of energy.

Energy Content:
Electrical Energy,
Energy Fundamentals,
Potential & Kinetic Energy
+
-
More Details Less Details
Learning Goal(s):
To access prior knowledge about different forms of energy
Pedagogy & Practice:
Field Work,
Group Work/Collaboration,
Research-Primary
NGSS Science and Engineering Practices:
3: Planning and Carrying Out Investigations
Author:
Erin Sturtz
Relevant NGSS PE:
4-PS3-2,
MS-PS3-2,
MS-PS3-5
Other Subjects Covered:
ELA: Speaking & Listening,
ELA: Writing
Estimated Activity Length:
50 min
Electric Current Induction

Introduction to Electromagnetism

Grades:
6-12
Unit:
Wave Attenuator
Lesson Number:
1
Description:

Through a series of goal-oriented activities and research, students will build physical models that demonstrate the interactions between magnetism and magnetic fields as well as interactions between magnetism and electric fields. Students will be...

Energy Content:
Circuitry,
Electrical Energy,
Electricity and Magnetism
+
-
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.
Pedagogy & Practice:
Engineering Design,
Group Work/Collaboration,
Hands-on Materials,
Phenomena-Driven Instruction,
Project-Based Learning,
Research-Secondary
NGSS Science and Engineering Practices:
1: Asking Questions and Defining Problems,
2: Developing and Using Models,
3: Planning and Carrying Out Investigations,
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-ESS3-3,
MS-ETS1-1,
MS-ETS1-4,
MS-PS2-4,
MS-PS2-5,
MS-PS3-5
Other Subjects Covered:
ELA: Informational Text,
ELA: Speaking & Listening,
ELA: Writing
Estimated Activity Length:
3 hours
Solar Thermal Jug

Passive Solar Water Heating

Grades:
6-12
Unit:
Bioreactor Water Heating
Lesson Number:
1
Description:

Students retrofit milk jugs to absorb and retain the most solar energy. This process involves students collecting data that measures the impacts of different variables on the solar energy absorbed by each collection device. Students should be able to see...

Energy Content:
Solar Thermal,
Thermal Energy (Heat)
+
-
More Details Less Details
Learning Goal(s):
1. Students will cover/manipulate milk jugs to achieve the most solar energy absorption. 2. Students will calculate the joules of energy absorbed by the solar heated water. 3. Students will measure and graph the temperature changes of their solar milk jugs. 4. Students will gain an understanding of the amount of energy in sunlight.
Pedagogy & Practice:
Engineering Design,
Group Work/Collaboration,
Hands-on Materials
NGSS Science and Engineering Practices:
3: Planning and Carrying Out Investigations,
4: Analyzing and Interpreting Data
Author:
Tami Church
Relevant NGSS PE:
MS-PS3-3,
MS-PS3-4,
MS-PS3-5,
HS-PS3-5
Other Subjects Covered:
ELA: Vocabulary Development,
Math: Measurement
Estimated Activity Length:
2 hours
Energy Transformations

Introduction to Energy

Grades:
7-8
Unit:
Solar vs. Wind Energy
Lesson Number:
1
Description:

This lesson will introduce students to each of the different types of energy using PowerPoint slides, partner activities, and hands-on experiences with different kinds of energy including: batteries (chemical), electrical circuits (electrical), motors (...

Energy Content:
Energy Fundamentals
+
-
More Details Less Details
Learning Goal(s):
• Students will be able to name and describe at least 5 kinds of energy • Students will be able to identify and explain simple energy transformations
Pedagogy & Practice:
Group Work/Collaboration,
Hands-on Materials
NGSS Science and Engineering Practices:
1: Asking Questions and Defining Problems,
3: Planning and Carrying Out Investigations,
7: Engaging in Argument from Evidence
Author:
Craig Marais
Relevant NGSS PE:
MS-PS3-3,
MS-PS3-5
Other Subjects Covered:
ELA: Writing,
ELA: Vocabulary Development
Estimated Activity Length:
2 hours
Simple Solar Water Heater

Making the Standard Solar Heater

Grades:
6-8
Unit:
Experimenting with Solar Heaters
Lesson Number:
1
Description:

In part one of the activity students will be asked to create a simple solar heater, measure the temperature change in a vial of water, then calculate the heat energy transferred to a vial of water. Students will construct the solar heater, place a set...

Energy Content:
Potential & Kinetic Energy,
Solar Thermal,
Thermal Energy (Heat)
+
-
More Details Less Details
Learning Goal(s):
In this activity students will learn that sunlight energy can be transformed into other forms of energy and that the amount of sunlight energy captured by an object can be quantified and measured.
Pedagogy & Practice:
Engineering Design,
Group Work/Collaboration,
Hands-on Materials,
Project-Based Learning
NGSS Science and Engineering Practices:
2: Developing and Using Models,
3: Planning and Carrying Out Investigations,
4: Analyzing and Interpreting Data,
5: Using Mathematics and Computational Thinking,
6: Constructing Explanations and Designing Solutions,
7: Engaging in Argument from Evidence
Author:
Nathan Franck
Relevant NGSS PE:
MS-PS1-4,
MS-PS3-5,
MS-PS4-2
Other Subjects Covered:
ELA: Writing,
Math: Algebra,
Math: Functions,
Math: Graphing & Representation,
Math: Measurement
Estimated Activity Length:
1 hour
Wave Attenuator

Building a Tidal Wave Attenuator

Grades:
6-12
Unit:
Wave Attenuator
Lesson Number:
2
Description:

This lesson is designed to build upon investigations of electromagnetic energy by applying these phenomena to transfer the kinetic energy moving in waves to electricity by building a wave attenuator.

Energy Content:
Electrical Energy,
Electricity and Magnetism,
Electricity Generation,
Tidal Energy,
Wave Energy
+
-
More Details Less Details
Learning Goal(s):
1. Students will describe and model the energy transfer and transformation in a wave attenuator. 2. Students will build a wave attenuator using a diagram and selected materials. 3. Students will test the model wave attenuator they built.
Pedagogy & Practice:
Engineering Design,
Group Work/Collaboration,
Hands-on Materials,
Project-Based Learning
NGSS Science and Engineering Practices:
1: Asking Questions and Defining Problems,
2: Developing and Using Models,
6: Constructing Explanations and Designing Solutions
Author:
Tabatha Roderick
Relevant NGSS PE:
MS-ESS3-3,
MS-ETS1-1,
MS-ETS1-4,
MS-PS2-4,
MS-PS3-5
Other Subjects Covered:
ELA: Speaking & Listening,
ELA: Writing
Estimated Activity Length:
2 hours

Pages