TinkerCAD: Introduction to 3D Printing

Grades:
5-8
Unit:
Adrift in a Sea of Plastic
Lesson Number:
1
Description:

This lesson is designed to span 5 days with 50-minute sections. After the introduction day, each day the students work toward mastery on the TinkerCAD tutorial online to learn how to create printable 3D models. At the end of the 4 days the students will...

Energy Content:
Next Generation Manufacturing
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More Details Less Details
Learning Goal(s):
Students will complete several computer aligned design tutorials, lessons, and one project to fully understand and implement unique 3D printed designs.
Pedagogy & Practice:
21st Century Skills Development,
Engineering Design,
Establishing a Culture of Science,
Group Work/Collaboration,
Hands-on Materials,
Multiple Learning Styles,
Project-Based Learning,
STEAM/Arts
NGSS Science and Engineering Practices:
2: Developing and Using Models,
5: Using Mathematics and Computational Thinking
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,
Math: Addition, Subtraction, Multiplication, Division,
Math: Geometry
Estimated Activity Length:
4 hours
Earth Sun

Individual Independent Projects

Grades:
3-5
Unit:
Cooking with the Sun and Solar Ovens
Lesson Number:
12
Description:

The purpose of this lesson is to allow students to choose an area of interest regarding solar power and research it further in a manner of their choice. Students will produce a final product to display or share at the “Salute to the Sun” culminating event...

Energy Content:
Light (Visible),
Materials Science,
Solar Thermal,
Thermal Energy (Heat)
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More Details Less Details
Learning Goal(s):
Students will plan, gather research materials and create a project of their choice. In doing so student will learn proper research methods (i.e., reliable sources) and how to categorize and translate information. In addition students will become comfortable and familiar presenting information to others. Lastly, students will also learn how to create a rubric for self evaluation.
Pedagogy & Practice:
Culturally Sustaining,
Engineering Design,
Establishing a Culture of Science,
Hands-on Materials,
Multiple Learning Styles,
Project-Based Learning,
Research-Secondary,
STEAM/Arts
NGSS Science and Engineering Practices:
1: Asking Questions and Defining Problems,
3: Planning and Carrying Out Investigations,
6: Constructing Explanations and Designing Solutions
Author:
Lisa Morgan
Relevant NGSS PE:
4-ESS3-1,
5-ESS3-1
Other Subjects Covered:
ELA: Informational Text,
ELA: Reading: Scientific & Technical,
ELA: Writing
Estimated Activity Length:
10 hours

Cost Effective Solar Cells: Unique Solar Cell Construction & Testing

Grades:
9-12
Unit:
Cost Effective Solar Cells
Lesson Number:
12
Description:

This lesson is designed to be completed in four 80-minute sections. The teacher will facilitate the construction of unique solar cells for student projects. General chemistry equipment and fabrication equipment will be needed for student construction and...

Energy Content:
Circuitry,
Electrical Energy,
Electricity and Magnetism,
Electricity Generation,
Electrons,
Energy Fundamentals,
Solar Photovoltaic
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More Details Less Details
Learning Goal(s):
Students will construct their unique solar cellsStudents will test unique solar cellsStudents will revise procedures based on solar cell testing resultsStudents will re-build and re-test solar cells
Pedagogy & Practice:
21st Century Skills Development,
Engineering Design,
Hands-on Materials,
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,
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:
Tom Wolverton
Relevant NGSS PE:
HS-PS1-2,
HS-PS2-6,
HS-PS3-3
Other Subjects Covered:
Environmental Sciences,
ELA: Reading: Scientific & Technical
Estimated Activity Length:
0 sec

Cost Effective Solar Cells: Construction Progress and Obstacles

Grades:
9-12
Unit:
Cost Effective Solar Cells
Lesson Number:
13
Description:

This lesson is designed to be completed in one 80-minute section. The teacher will facilitate 3-4 groups as they share their construction progress and obstacles. Students will share individual results in a fishbowl setting and will participate in...

Energy Content:
Circuitry,
Electrical Energy,
Electricity Generation,
Electronics,
Electrons,
Energy Fundamentals,
Solar Photovoltaic,
Sources of Energy
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More Details Less Details
Learning Goal(s):
Students will present construction progress and project obstacles
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,
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:
Tom Wolverton
Relevant NGSS PE:
HS-PS1-2,
HS-PS2-6,
HS-PS3-3
Other Subjects Covered:
ELA: Reading: Scientific & Technical
Estimated Activity Length:
1 hour
Solar Mobile

Exploring Circuits and Optimum Power

Grades:
6-8
Unit:
Solar Mobile Design Challenge
Lesson Number:
2
Description:

This lesson is an exploratory learning cycle that will give the instructor input as to where students are in their understanding of circuits and also scaffolds student learning. This lesson starts by engaging students by using an Energy Stick. Then,...

Energy Content:
Circuitry,
Electrical Energy,
Solar Photovoltaic
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More Details Less Details
Learning Goal(s):
Students build series circuits using “grain of wheat bulb” and LEDs powered by various low voltage solar panels. Students build parallel circuits using grain of wheat and LED bulbs powered by various low voltage solar panels. Students demonstrate and draw the energy transfer using solar energy. Students draw a circuit diagram of their final optimal circuit. Students design an optimal circuit model that will be used in their final project. 
Pedagogy & Practice:
Engineering Design,
Group Work/Collaboration,
Hands-on Materials,
Project-Based Learning,
STEAM/Arts
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
Author:
Kristy Schneider
Other Subjects Covered:
ELA: Writing,
Math: Algebra,
Math: Measurement
Estimated Activity Length:
3 hours

Manipulating Design Variables on Solar Heaters

Grades:
6-8
Unit:
Experimenting with Solar Heaters
Lesson Number:
2
Description:

Part 2 builds on part 1, asking students to design a solar heater that more effectively collects solar energy. Students are provided with various building supplies and are asked to change one variable from the standard to construct a new, more effective...

Energy Content:
Solar Thermal,
Thermal Energy (Heat)
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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:
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,
7: Engaging in Argument from Evidence,
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: Speaking & Listening,
Math: Addition, Subtraction, Multiplication, Division,
Math: Algebra,
Math: Functions,
Math: Measurement
Estimated Activity Length:
1 hour
Solar Rooftop

Macro-Scale Solar

Grades:
9-12
Unit:
Solar Resources Assessment
Lesson Number:
2
Description:

This lesson begins with basic chemistry with regards to atomic structure. The lesson then moves to understanding the special properties of silicon as a photoelectric semi- conductor. Building on this, the basic structure of photovoltaic solar cells is...

Energy Content:
Circuitry,
Electrical Energy,
Electricity Generation,
Solar Photovoltaic
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Learning Goal(s):
Students will be able to describe the basic structure of a photovoltaic solar module implementing the ideas of series and parallel wiring. Students will be able to describe the basic structure of a photovoltaic solar array implementing the ideas of series and parallel wiring. Students will be able to describe the function and necessity of an inverter when using photovoltaic arrays.
Pedagogy & Practice:
Hands-on Materials,
Project-Based Learning
NGSS Science and Engineering Practices:
3: Planning and Carrying Out Investigations,
6: Constructing Explanations and Designing Solutions
Author:
Clayton Hudiburg
Relevant NGSS PE:
HS-PS3-3
Other Subjects Covered:
ELA: Writing,
ELA: Vocabulary Development,
Math: Measurement
Estimated Activity Length:
3 hours
Sphero SPRK+

Solar SPRK+: Sphero Edu Coding

Grades:
6-8
Unit:
Solar SPRK+
Lesson Number:
2
Description:

After working on a few Scratch drag and drop programs, participants will transition to Sphero Edu, a comparable drag and drop program for Lesson 2 to prepare to program a Sphero SPRK+ ball to navigate through a maze.

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More Details Less Details
Learning Goal(s):
Students will use block programming and Oval Language in order to make a SPRK+ perform a variety of motion-oriented tasks.Students will combine motion and sound functions using block programming and Oval Language.Students will track useful pieces of sequence code that they can reuse in order to get their SPRK+ to navigate a lengthy maze.
Pedagogy & Practice:
Engineering Design,
Project-Based Learning
NGSS Science and Engineering Practices:
5: Using Mathematics and Computational Thinking
Author:
Deb Frankel
Relevant NGSS PE:
MS-ETS1-1,
MS-ETS1-2,
MS-ETS1-3
Other Subjects Covered:
Computer Science
Estimated Activity Length:
5 hours
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
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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

Solar Cars Science Investigation

Grades:
4-6
Unit:
Solar Cars
Lesson Number:
2
Description:

Students will design a science investigation to test solar car with a pulley or with a variety of gear sizes. In the previous lesson, they were introduced to the different types of systems that can be employed on their car. In this lesson they will use...

Energy Content:
Potential & Kinetic Energy,
Solar Photovoltaic
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More Details Less Details
Learning Goal(s):
Students will design an investigation to test solar vehicles. They will determine which particular materials they will use in the testing of their chosen format. Students will allow for redesign to take place by determining variables that can be manipulated in a measurable format. Students will determine data that will be useful to collect in the testing of their vehicle design.
Pedagogy & Practice:
Engineering Design,
Group Work/Collaboration,
Project-Based Learning
NGSS Science and Engineering Practices:
2: Developing and Using Models,
3: Planning and Carrying Out Investigations
Author:
Carol Patrick
Relevant NGSS PE:
3-5-ETS1-3
Other Subjects Covered:
ELA: Writing,
Math: Graphing & Representation,
Math: Measurement
Estimated Activity Length:
50 min

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