Hot Pack

Unit Plan - Chemical Differences in Emergency Energy Sources

Grades:
7-8
Description:

Students develop atomic and molecular models of energy resources, analyze combustion of various fuels and build circuits with Photovolatic (PV) modules to evaluate and suggest revisions to a disaster preparedness supply list. They then research and...

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Learning Goal(s):
To build empathy for people in emergency situations and an understanding of how access to energy resources can increase one’s safety, health, and comfort. To understand the nature of a variety of energy needs and how different applications have different optimal solutions. To develop models to explain the molecular and extended structures of energy resources, including how the resources change when energy is generated (Electron movement in PV cells, combustion reactions in fuel). To understand that the properties of substances depends upon the atomic / molecular structure, which changes with chemical reactions. To build a circuit that includes a solar module and measure the voltage and current. To gather and evaluate information to describe the impact on society of converting natural resources into PV cells. To design, build and test a device that uses a chemical reaction to generate or absorb thermal energy. Evaluate and revise a plan for the energy resources one should store to prepare for a natural disaster. 
Author:
Melody Childers
Estimated Activity Length:
0 sec
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
Energy Transformations

Energy Sort

Grades:
4-5
Lesson Number:
1
Description:

Students will be put in groups of six to eight students. Each group will have images of various items that produce heat (light bulb, hair dryer, refrigerator, computer, game system, television, car, motorcycle, microwave, space heater, etc.). The goal is...

Energy Content:
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Learning Goal(s):
Students will begin to think about various appliances and items that they use and the energy that those items consume. Students will make connections between common objects in their lives and energy transformations taking place.
Pedagogy & Practice:
NGSS Science and Engineering Practices:
Author:
Eric Gronseth
Relevant NGSS PE:
Estimated Activity Length:
40 min
Thermal Convection

Where Does Energy Go?

Grades:
3-8
Lesson Number:
2
Description:

This lesson consists of six demonstration activities that show examples of ways in which water and air absorb heat to transfer energy from one place to another. These demonstration activities act as unique phenomena in which students can generate questions...

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Learning Goal(s):
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.
Author:
Lisa Morgan
Estimated Activity Length:
5 hours
Sources of Energy

Brainstorm Energy Source

Grades:
4-5
Lesson Number:
2
Description:

Students will individually brainstorm sources of energy. This process will take place on both an individual and on a group level, allowing for students to share ideas about their perceptions of energy. On a sheet of paper, students will write or draw...

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Learning Goal(s):
Students will begin to think about various appliances and items that they use and the energy that those items consume. Students will brainstorm ideas of energy sources without worrying about right and wrong answers. Students will create a visual reference for different types of energy resources with their classmates.
Author:
Eric Gronseth
Relevant NGSS PE:
Estimated Activity Length:
40 min
WindMaterials_DSCN2143.jpg

Wind Power: A Hands on Experience

Grades:
3-8
Lesson Number:
3
Description:

This lesson challenges students to work in teams to design successful turbine blades for the “KidWind Firefly”. The firefly has an LED light that lights up when the students have designed turbine blades that spin effectively. This lesson provides students...

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Learning Goal(s):
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 at harnessing and converting the mechanical energy of the wind.
Author:
Lisa Morgan
Estimated Activity Length:
2 hours
Magnetic Field Filings

Three Ways to Generate Electricity

Grades:
7-8
Lesson Number:
4
Description:

This lesson gives students hands-on experiences with the attraction and repulsion of magnets including experiments with how the strength of attraction and repulsion varies with distance. Students see how magnets are used in motors but also in electric...

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Learning Goal(s):
Students will be able to: • Detect the relative strength of magnetic fields at different distances from a magnet • Explain the energy transformations occurring in each part of a circuit • Identify three different methods for generating electricity
Author:
Craig Marais
Relevant NGSS PE:
Estimated Activity Length:
3 hours
Solar Updraft

Let's Build Our Wind and Solar Energy Toy

Grades:
3-8
Lesson Number:
4
Description:

Students will combine what they learned in previous lessons using their investigations of convection-related phenomena to design a device that will convert light energy from the sun into thermal energy and utilize the resulting convection currents. Their...

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Learning Goal(s):
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.
Pedagogy & Practice:
Author:
Lisa Morgan
Estimated Activity Length:
3 hours
Kill-a-Watt Meter

Home Energy Use

Grades:
4-5
Lesson Number:
6
Description:

This lesson is meant to provide students the opportunity to learn about the power usage of items in their home that they are already curious about. Students will learn to use a Watt meter to measure the amount of electricity various electric appliances in...

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Learning Goal(s):
Students will make observations and record about the amount of energy used by various appliances in their home. Students will make conclusions about which items in their home are generating the most energy. Students will make conclusions about methods in which they can reduce the energy used in their homes.
Author:
Eric Gronseth
Relevant NGSS PE:
Estimated Activity Length:
40 min