Solar Car Student

Solar Car Challenge: Background Research on Car Design

Grades:
6-8
Unit:
Solar Car Challenge
Lesson Number:
3
Description:

Students will play around with the solar car kits to familiarize themselves with the materials in preparation for the solar car engineering challenge.

Energy Content:
Solar Photovoltaic
+
-
More Details Less Details
Learning Goal(s):
To introduce students to the problem that this project will attempt to solve: building a solar car that will go straight, far, and fast to win a race.
Pedagogy & Practice:
Engineering Design,
Group Work/Collaboration,
Research-Secondary
NGSS Science and Engineering Practices:
8: Obtaining, Evaluating, and Communicating Information
Author:
Karen Nelson
Relevant NGSS PE:
MS-ESS3-3,
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3,
MS-ETS1-4
Other Subjects Covered:
ELA: Informational Text,
ELA: Writing
Estimated Activity Length:
50 min

Creating the Most Effective Solar Heater

Grades:
6-8
Unit:
Experimenting with Solar Heaters
Lesson Number:
3
Description:

This part can be staged as a competition or simply a personal challenge to beat the standard solar heater created in part 1. During this stage of the lesson students are asked to analyze data and results from part 2 and identify which characteristics of a...

Energy Content:
Solar Thermal,
Thermal Energy (Heat)
+
-
More Details Less Details
Learning Goal(s):
In this activity students demonstrate the ability to evaluate competing solutions to the problem of increasing the heat energy transferred to a vial of water.
Pedagogy & Practice:
Engineering Design,
Group Work/Collaboration,
Hands-on Materials,
Project-Based Learning
NGSS Science and Engineering Practices:
3: Planning and Carrying Out Investigations,
4: Analyzing and Interpreting Data,
5: Using Mathematics and Computational Thinking,
6: Constructing Explanations and Designing Solutions,
8: Obtaining, Evaluating, and Communicating Information
Author:
Nathan Franck
Relevant NGSS PE:
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3,
MS-PS3-3
Other Subjects Covered:
ELA: Writing,
Math: Addition, Subtraction, Multiplication, Division,
Math: Algebra,
Math: Measurement
Estimated Activity Length:
1 hour

Part 1- Lesson 3: Home Energy Audit

Grades:
6-12
Unit:
A Community Powered by Renewable Energy
Lesson Number:
3
Description:

During this lesson, students will focus on where energy is used within their homes, how energy consumption is calculated, and how energy consumption can be reduced. Students will conduct a home energy audit and determine multiple ways to reduce energy...

Energy Content:
Circuitry,
Demand Response,
Electrical Energy,
Electronics,
Electrons,
Energy Efficiency,
Smart Grid
+
-
More Details Less Details
Learning Goal(s):
1.Students will identify all ways that energy is consumed within their homes.2.Students will perform an energy audit of their home and calculate the amount of energy used by each electronic device and appliances.3.Students will create a spreadsheet demonstrating the electricity required to operate each electronic device and appliance, along with a summary of finding that clearly identifies how energy consumption can be reduced within their home.4.Students will explore various ways to reduce energy (goal is 30% reduction).5.Students will propose a variety of energy reduction plans and present those options to their families for discussion.6.After discussion with their families, students will itemize the agreed upon plan and identify specific actions that result in quantifiable outcomes that will implemented to reduce energy consumption by their families.
Pedagogy & Practice:
21st Century Skills Development,
Empathetic Engineering,
Engineering Design,
Field Work,
Hands-on Materials,
Multiple Learning Styles,
Phenomena-Driven Instruction,
Place-Based Learning,
Project-Based Learning,
Research-Primary
NGSS Science and Engineering Practices:
1: Asking Questions and Defining Problems,
3: Planning and Carrying Out Investigations,
4: Analyzing and Interpreting Data,
5: Using Mathematics and Computational Thinking,
6: Constructing Explanations and Designing Solutions,
8: Obtaining, Evaluating, and Communicating Information
Author:
Jonathan Strunin
Relevant NGSS PE:
MS-ESS3-4,
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3,
HS-ESS3-2,
HS-ESS3-4,
HS-ETS1-1,
HS-ETS1-2,
HS-ETS1-3,
HS-ETS1-4
Other Subjects Covered:
Math: Addition, Subtraction, Multiplication, Division,
Math: Algebra,
Math: Functions,
Math: Measurement,
Math: Ratios & Proportions
Estimated Activity Length:
4 hours

Engineering 101

Grades:
5-8
Unit:
Adrift in a Sea of Plastic
Lesson Number:
3
Description:

This lesson is designed for 3, 50-minute sessions. The students will engage in multiple mini-engineering challenges to develop their understanding of structures and how to build models. The students will also learn to use the 3D pens to create a 3D object...

Energy Content:
Materials Science,
Next Generation Manufacturing
+
-
More Details Less Details
Learning Goal(s):
·       Students will understand some basics of engineering.·       Students will become familiar with 3D pens and how to use them.
Pedagogy & Practice:
21st Century Skills Development,
English Language Strategies,
Engineering Design,
Establishing a Culture of Science,
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,
6: Constructing Explanations and Designing Solutions
Author:
Jonathan Strunin
Relevant NGSS PE:
5-ESS3-1,
3-5-ETS1-1,
3-5-ETS1-2,
3-5-ETS1-3,
MS-ESS3-3,
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3
Estimated Activity Length:
2 hours
Sphero SPRK+

Solar SPRK+ Electricity Fundamentals and Photovoltaics

Grades:
6-8
Unit:
Solar SPRK+
Lesson Number:
4
Description:

Students work through a number of solar circuit explorations that culminate in a challenge to charge the Sphero SPRK+ devices with solar panels. In this exploration, students will investigate the requirements of various loads, working toward the voltage...

Energy Content:
Circuitry,
Electrical Energy,
Solar Photovoltaic
+
-
More Details Less Details
Learning Goal(s):
Students will determine how to create various types of circuits in order to power loads with different electric needs.Students will identify the electric needs of a Sphero charger and build a circuit needed to charge this device.
Pedagogy & Practice:
Engineering Design,
Establishing a Culture of Science,
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
Author:
Deb Frankel
Relevant NGSS PE:
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3
Other Subjects Covered:
ELA: Writing
Estimated Activity Length:
1 hour
Solar Car Student

Solar Car Challenge: Team Brainstorm

Grades:
6-8
Unit:
Solar Car Challenge
Lesson Number:
4
Description:

Students will play around with the solar car kits to familiarize themselves with the materials in preparation for the solar car engineering challenge.

Energy Content:
Solar Photovoltaic
+
-
More Details Less Details
Learning Goal(s):
To introduce students to the problem that this project will attempt to solve: building a solar car that will go straight, far, and fast to win a race.
Pedagogy & Practice:
Establishing a Culture of Science,
Group Work/Collaboration,
Hands-on Materials,
STEAM/Arts
NGSS Science and Engineering Practices:
1: Asking Questions and Defining Problems,
2: Developing and Using Models
Author:
Karen Nelson
Relevant NGSS PE:
MS-ESS3-3,
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3,
MS-ETS1-4
Other Subjects Covered:
ELA: Speaking & Listening
Estimated Activity Length:
50 min

Design and Engineer Solutions

Grades:
5-8
Unit:
Adrift in a Sea of Plastic
Lesson Number:
4
Description:

This lesson is designed to span 9 days with 50-minute sessions. The students will use a Design and Engineering Journal to guide them in the design and engineering process. In small groups they will use the research from lesson 2 to formulate solutions to...

Energy Content:
Circuitry,
Electrical Energy,
Materials Science,
Next Generation Manufacturing,
Solar Photovoltaic
+
-
More Details Less Details
Learning Goal(s):
Students will take part in the engineering design process.Students will use problem solving skills to make changes to designs.Students will use speaking and listening skills to give presentations and listen to others give their presentation.
Pedagogy & Practice:
21st Century Skills Development,
Culturally Sustaining,
English Language Strategies,
Engineering Design,
Establishing a Culture of Science,
Group Work/Collaboration,
Hands-on Materials,
Phenomena-Driven Instruction,
Project-Based Learning,
Research-Secondary,
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:
Jonathan Strunin
Relevant NGSS PE:
5-ESS3-1,
3-5-ETS1-1,
3-5-ETS1-2,
3-5-ETS1-3,
MS-ESS3-3,
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3
Other Subjects Covered:
Computer Science,
Environmental Sciences,
ELA: Speaking & Listening,
Math: Geometry,
Math: Graphing & Representation,
Math: Measurement
Estimated Activity Length:
7 hours
Sphero SPRK+

Solar SPRK+: Chariot Engineering Design

Grades:
6-8
Unit:
Solar SPRK+
Lesson Number:
5
Description:

Students will work through the engineering design process to build a chariot for their SPRK+ that will carry their solar panels through a maze to a charging station. Students will draft prototypes, test their designs, and make changes to their design based...

Energy Content:
Circuitry,
Electrical Energy,
Electronics,
Solar Photovoltaic
+
-
More Details Less Details
Learning Goal(s):
Students will identify possible design solutions to have a Sphero SPRK+ pull solar panels as a portable power source.Students will work in groups to determine the best possible designs and construct and test these designs with their team.Students will determine the strengths and weaknesses of each design and incorporate these findings into further construction phases.
Pedagogy & Practice:
21st Century Skills Development,
Engineering Design,
Group Work/Collaboration,
Hands-on Materials,
Project-Based Learning
NGSS Science and Engineering Practices:
1: Asking Questions and Defining Problems,
6: Constructing Explanations and Designing Solutions
Author:
Deb Frankel
Relevant NGSS PE:
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3
Other Subjects Covered:
Computer Science
Estimated Activity Length:
2 hours
Solar Car Student

Solar Car Challenge: Develop Your Solution

Grades:
6-8
Unit:
Solar Car Challenge
Lesson Number:
5
Description:

Students will play around with the solar car kits to familiarize themselves with the materials in preparation for the solar car engineering challenge.

Energy Content:
Solar Photovoltaic
+
-
More Details Less Details
Learning Goal(s):
To introduce students to the problem that this project will attempt to solve: building a solar car that will go straight, far, and fast to win a race.
Pedagogy & Practice:
Engineering Design,
Group Work/Collaboration,
Hands-on Materials,
Research-Secondary
NGSS Science and Engineering Practices:
6: Constructing Explanations and Designing Solutions
Author:
Karen Nelson
Relevant NGSS PE:
MS-ESS3-3,
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3,
MS-ETS1-4
Estimated Activity Length:
50 min

Part 2 - Lesson 2: Wind Energy

Grades:
6-12
Unit:
A Community Powered by Renewable Energy
Lesson Number:
5
Description:

Students will learn about wind and how wind varies across geographies. Students will use Vernier Wind Turbine kits or homemade wind turbines to experiment with blade angles and wind speed. During experimentation, students will collect data as blade angles...

Energy Content:
Electrical Energy,
Electricity Generation,
Sources of Energy,
Wind Energy
+
-
More Details Less Details
Learning Goal(s):
1.Students will conduct an experiment where blade angles are the variable and wind speed is constant.2.Students will conduct an experiment where blade angles are constant and wind speed varies.3.Students will collect and analyze data to provide a conclusion to the questions: What is the optimal blade angle for generating the most energy? What is the optimal wind speed for generating the most energy?4.Students will research prevailing winds and use a provided map of their region to indicate wind speed and direction.5.Students will propose locations for wind farms based on optimal energy generation and zoning restrictions.6.Based on their proposals, students will determine a range of potential kilowatt generation from wind power.
Pedagogy & Practice:
21st Century Skills Development,
Engineering Design,
Establishing a Culture of Science,
Group Work/Collaboration,
Hands-on Materials,
Multiple Learning Styles,
Phenomena-Driven Instruction,
Place-Based Learning,
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,
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:
Jonathan Strunin
Relevant NGSS PE:
MS-ESS3-3,
MS-ESS3-4,
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3,
MS-ETS1-4,
MS-PS3-2,
HS-ESS3-2,
HS-ESS3-4,
HS-ETS1-1,
HS-ETS1-2,
HS-ETS1-3,
HS-ETS1-4,
HS-PS3-3
Other Subjects Covered:
Math: Measurement,
Social Sciences: Geography
Estimated Activity Length:
10 hours

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