Unit Plan: Understand E-Waste Through Battery Design

Grades:
4-5
Description:

In this lesson students will further explore their understanding of energy, electricity, and basic circuits. Students will begin their exploration of batteries by questioning where batteries end up when we are done using them, making connections to e-waste...

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Learning Goal(s):
1.Students will make connections to real world problem solving with e-waste.2.Students will explore battery design and transfer of energy through hands on experiments with household items.3.Students will evaluate and analyze problems with e-waste and research solutions.4.Students will draw and label models to explain circuits demonstrating the movement of energy.5.Students will be able to explain how the measured and compared batteries based on the knowledge learned about volts and using a voltmeter.
Author:
Jonathan Strunin
Estimated Activity Length:
10 hours
Solar Tracker

Solar Tracker Challenge

Grades:
5-7
Description:

Students will build a simple circuit that can be used to track a light source. This circuit will be used as a springboard for discussion into the engineering design process, solar tracking, and basic electricity and circuits. The simple solar tracker...

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Learning Goal(s):
Students observe and replicate a simple solar tracker; learn basic electric circuits and terminology; reflect on possible improvements for solar tracker; and reflect on how the engineering design process is used daily.
NGSS Science and Engineering Practices:
Author:
Jamie Repasky
Estimated Activity Length:
1 hour
SODIS_UV Treament

Solar and SODIS: Creating Clean Water for the World

Grades:
5-8
Description:

According to Nobel Laureate Richard Smalley, the number one and two challenges for humanity are energy and clean water. This classroom activity will introduce students to a low cost, renewable technique that connects these two issues. During the activity,...

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Learning Goal(s):
Students will be introduced to the range of microbes in the environment, understand the risks of “dirty water” and be able to explain how energy from the sun can purify water through the SODIS technique.
Author:
Jamie Repasky
Estimated Activity Length:
1 hour

Adrift in a Sea of Plastic Unit Plan

Grades:
5-8
Description:

In this unit students will investigate the phenomena of plastic trash islands floating in the Pacific and Atlantic Oceans. The students will work to solve the problem of plastic trash islands through the engineering and design process. Using 3D printers,...

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Learning Goal(s):
·       Students will design 3D models using Tinkercad software.·       Students will define the problem of plastic trash islands.·       Students will describe possible solutions to the problem of plastic trash islands.·       Students will research the plastic trash problem and create google slideshows the problem and how we might fix it.·       Students will investigate different ways to build structures that both float and hold weight.·       Students will build a model of a device that could collect plastic from the ocean.·       Students will test the models they build.·       Students will communicate their results from scientific inquiry to identify factors that are important to optimizing the design of the plastic collecting device.
Author:
Jonathan Strunin
Estimated Activity Length:
10 hours
Solar Updraft Tower

Solar Updraft Towers Unit Overview

Grades:
3-8
Description:

Students will combine research, direct observations, and hands-on investigation to lead them into an engineering design project involving the construction of a solar updraft tower. During this process, students will make references to specific phenomena...

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Learning Goal(s):
Students will understand ten renewable and non-renewable energy sources on the earth.Students will learn the locations of different energy sources on the earth.Students will learn the history of energy sources and how humans have used them.Students will learn about innovations and inventions used to find, recover, store, and release energy for human consumption.Students will understand that hot air risesStudents will understand why hot water and hot air rise and cold air and cold water sink.Students will learn that wind is produced by warm air rising and cold air sinking.Students will learn that the energy of moving hot air can be converted into other forms of energy.Students will understand that energy from the sun can be converted into heat.Students will discuss the effects of the chimney stack phenomenon.Students will understand that wind energy can be converted into other forms of energy.Students will determine different methods to increase the effectiveness of a wind turbine blade by harnessing and converting the mechanical energy of the wind.Students will determine that thermal energy resulting from the sun’s radiation can create an updraft that will power a turbine to spin.                                       Students will identify characteristics of turbine design that improve the success of their device.Students will utilize content from previous phenomena they investigated, such as the chimney stack effect and Norwegian candle toys, to determine how to best harness the energy transformed by their device from the sun.Students will be able to define and explain what a solar updraft tower is.Students will make connections between their previous engineering challenge and a real world solution to the world’s growing energy demands.
Author:
Lisa Morgan
Estimated Activity Length:
10 hours
Solar Mini House

Mini Solar Houses Unit

Grades:
4-6
Description:

In Lesson 1, the lesson focuses on understanding how the angle and orientation affect the amount of energy that is generated through use of a solar cell. Paper azimuth finders, Keva Planks, and multimeters will be used in order for students to draw...

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Learning Goal(s):
1. Students will understand how to use an Azimuth finder to determine the direction and altitude that solar modules will face. 2. Students will learn how to describe why a solar module is pitched at a particular angle. 3. Students will understand how to measure the voltage and current for an electrical energy source. 4. Students will learn how to build a circuit that will light a light bulb with a switch and without a switch. 5. Students will understand that the electricity flows through a circuit from an energy source to a load. 6. Students will understand the difference between open and closed circuits. 7. Students will understand the similarities and differences between solar cells and batteries as an energy source. 8. Students will understand how electricity flows through a circuit (from energy sources to loads) with more than one source and more than one load. 9. Students will understand how to build series and parallel circuit and the characteristics of each. 10. Students will learn to power both a light and a fan. 11. Students will learn how to find a fault in a circuit. 12. Students will understand that the electricity flows through a circuit from an energy source to a load. 13. Students will understand the difference between open and closed circuits. 14. Students will identify the causes and solutions to various complications that arise in the construction of circuits. 15. Students will use the design process to create a roof to hold an adequate number of solar modules to power an LED and a fan. 16. Students will understand how to make a geometric net (a 2D drawing that when folded creates a 3D shape) for designing a roof.
Author:
Beverly Satterwhite
Estimated Activity Length:
8 hours
Sources of Energy

Informative Writing: Where Does Energy Come From?

Grades:
3-8
Lesson Number:
1
Description:

This lesson is a (stand alone or in-unit) guided non-fiction research and writing project, which includes a differentiated choice menu and list of ideas for publishing the completed project. Each student will choose one of ten energy sources to research,...

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Learning Goal(s):
Students will understand ten renewable and non-renewable energy sources on the earth.Students will learn the locations of different energy sources on the earth.Students will learn the history of energy sources and how they have been used by humans.Students will learn about innovations and inventions used to find, recover, store and release energy for human consumption.
Pedagogy & Practice:
Author:
Lisa Morgan
Estimated Activity Length:
10 hours

How might we design a battery that reduces e-waste? Phenomenon and Exploration

Grades:
4-5
Lesson Number:
1
Description:

During this introduction lesson series students will explore the guiding phenomenon to understand e-waste and connect it to battery design. Students will utilize online resources to learn about problems from e-waste around the world and the environmental...

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Learning Goal(s):
1.Students will learn about the phenomenon of e-waste through online resources to explore the history of electronics.2.Students will ask questions and define problems involving the environmental impact of electronics and human impact.3.Students will evaluate and obtain information about electronic waste from online resources such as news articles and videos.4.Students will learn (or review) knowledge of circuits to design a model and explain how a circuit works.
Author:
Jonathan Strunin
Estimated Activity Length:
2 hours

TinkerCAD: Introduction to 3D Printing

Grades:
5-8
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...

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Wadsworth OH thumbnail

Let’s Get Cooking!

Grades:
4-5
Lesson Number:
10
Description:

The purpose of this lesson is to provide students with a hands-on experience using the sun to cook cornbread or cookies. Students will also learn to use an infrared thermometer. There is also an optional extension for the class or individual students to...

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Learning Goal(s):
At the end of this lesson students will be able to: • Follow and prepare a recipe for cookies. • Learn to take and record oven temperature every 30 minutes using an infrared thermometer. • Evaluate the three ovens with a pros and cons list for each one after cooking. • Write one or two of their own questions. • Make suggestions for design changes.
Author:
Lisa Morgan
Other Subjects Covered:
Estimated Activity Length:
3 hours

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