Design a 50 Year Energy Plan

What is Our Plan?

Grades:
9-12
Lesson Number:
6
Description:

With all the pieces in place, this Unit’s final lesson asks students to code a spreadsheet that calculates and mathematically predicts the environmental impacts of different energy sources and strategies over a 50 year timespan. Divided into five...

+
-
More Details Less Details
Learning Goal(s):
1. Students utilize their knowledge of energy’s impact on global systems as well as the process of energy generation in order to inform their development of a 50-year Energy Plan divided into decades. 
Author:
Bradford Hill
Estimated Activity Length:
5 hours
Solar Circuit

Variables Affecting Solar Power

Grades:
7-8
Lesson Number:
6
Description:

Students will plan and condict an investigation into solar photovoltaic technologies to determine what variables affect the output of panels. They will calculate and compare their exploration of solar panels to their previous investigation of wind turbines...

+
-
More Details Less Details
Learning Goal(s):
• Students will be able to identify and explain at least three variables that effect the efficiency of photovoltaic cells • Students will conduct a scientific investigation to determine which photovoltaic cell configuration will generate the most power.
Author:
Craig Marais
Estimated Activity Length:
2 hours
Sphero SPRK+

Solar SPRK+: Final Challenge and Presentation

Grades:
6-8
Unit:
Lesson Number:
6
Description:

In this lesson, students will navigate through a maze using their SPRK+ in order to reach the solar charging station. Students will redesign their chariot in order to meet the needs of this new maze in order to carry their solar panels to the charging...

+
-
More Details Less Details
Learning Goal(s):
Students will combine SPRK+ programming with the construction of a compatible chariot in order to guide their SPRK+ “Mars rover” to carry solar panels to a charging station.Students will present a final project to the class that summarizes their knowledge about the scientific background knowledge tied to this project as well as their design and testing process.
Author:
Deb Frankel
Estimated Activity Length:
8 hours

Part 2 - Lesson 3: Solar Energy

Grades:
6-12
Lesson Number:
6
Description:

Students will work with local government staff or another local energy professional to propose a way to create enough solar power energy to supply the annual energy needs for a real building. Students will be provided with on-site options, and will...

+
-
More Details Less Details
Learning Goal(s):
1.Students will conduct an experiment to determine how electrical output changes as solar panels as the azimuth and tilts are incrementally changed.2.Students will conduct an experiment to determine how electrical output changes as solar panels are shaded.3.Students will work with the staff from your city or town to calculate the amount of potential electrical energy that can be collected from solar panels based upon the location and size of the system.4.Students will use existing solar data to determine the number of solar panels required to power the building in question.
Author:
Jonathan Strunin
Estimated Activity Length:
6 hours
Kidwind Small Water Pump

Designing a Faster Water Pump

Grades:
2-5
Lesson Number:
7
Description:

Students use all their prior knowledge to design and construct a water pump that can pump 1 cup of water the fastest.

+
-
More Details Less Details
Learning Goal(s):
Students will be able to use available tools to design and test a solar water pump, refine their design, test and finally evaluate their efforts. Through this process students will understand and gain experience with the engineering design process.
Author:
Mike Hellis
Estimated Activity Length:
1 hour
Solar Car Student

Solar Car Challenge: Solutions Briefing

Grades:
6-8
Lesson Number:
7
Description:

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

+
-
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.
NGSS Science and Engineering Practices:
Author:
Karen Nelson
Estimated Activity Length:
50 min

Building Solar Boats

Grades:
4-6
Unit:
Lesson Number:
7
Description:

Students will follow step-by-step instructions to build their solar boats. They will troubleshoot as necessary by making sure electricity flows into the motor to make the vehicles move by propeller or gears. They will be using their planned investigations...

+
-
More Details Less Details
Learning Goal(s):
Students will follow step-by-step instructions to build their solar boats. They will troubleshoot as necessary by making sure electricity flows into the motor to make the vehicles move by propeller or gears. Students will determine different data points that are useful in the determining the most effective design for a solar powered boat. Students will undergo the process of redesign, noting why they made changes to particular variables on their boat and noting how these changes played out.
NGSS Science and Engineering Practices:
Author:
Carol Patrick
Other Subjects Covered:
Estimated Activity Length:
1 hour

Cost Effective Solar Cells: Titanium Dioxide Solar Cell Construction and Testing

Grades:
9-12
Lesson Number:
7
Description:

This lesson is designed to be completed in two 80-minute sections. The teacher will show a basic procedure and video. The teacher will facilitate the construction of Organic Dye-Sensitized solar cells on coated glass plates with Titanium Dioxide. A fume...

+
-
More Details Less Details
Learning Goal(s):
Students will construct titanium dioxide coated “raspberry juice” solar cellsStudents will test titanium dioxide coated “raspberry juice” solar cells under various conditions 
Author:
Tom Wolverton
Estimated Activity Length:
3 hours

Part 3 – Lesson 1: A Plan for Renewable Energy Goals

Grades:
6-12
Lesson Number:
7
Description:

Students will utilize their home energy audits from Part 1, the information they gathered from the wind and solar assessments in Part 2, and the knowledge they gained from the solar project in Part 2 to devise a plan for your city or town to meet renewable...

+
-
More Details Less Details
Learning Goal(s):
1.Students will utilize previously acquired information about energy needs to create a renewable energy proposal for their city or town.2.Students will perform a solar energy audit on their homes and use class averages to calculate the amount of renewable energy that can be generated on residential properties.3.Students will assess where commercial and local government solar projects can occur within the city or town to meet the energy needs for non-residential consumers.4.Students will determine potential locations for larger scale wind and solar farms to augment the remaining energy needs of the community.5.Students will prepare a comprehensive renewable energy plan that totals the calculations for potential residential, commercial, and agency renewable energy generation.6.Students will prepare a brief PowerPoint presentation that summarizes their comprehensive plans that will be presented to a panel of elected officials or local experts/stakeholders.
Author:
Jonathan Strunin
Estimated Activity Length:
4 hours
Solar Car Student

Solar Car Challenge: Redesigning Your Solution & Results of the Design Process Activity

Grades:
6-8
Lesson Number:
8
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:
+
-
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.
NGSS Science and Engineering Practices:
Author:
Karen Nelson
Estimated Activity Length:
2 hours