Wave Attenuator Lesson 3: Testing a Tidal Wave Attenuator

Average Rating:
0
Author:
Tabatha Roderick
Intended Grade Level(s):
6th
7th
8th
9th
10th
11th
12th
Subject Area(s) Covered:
Electromagnetic Induction
renewable energy
Wave Fundamentals
Electricity Generation
Estimated Activity Length:
5 hours 40 min
Learning Goal(s):

1. Students will investigate variables that may affect the output of an energy conversion device (wave attenuator).
2. Students will interpret data to identify which variables increase electrical output for these model wave attenuators.
3. Students will communicate results from scientific inquiry to identify factors that are important to optimizing the design of a wave attenuator.

Students will test the efficiency of the tidal wave attenuator models that they previously built. They will determine variables on their models they can manipulate, such as wire gauge and magnet strength, and measure the effects of manipulating this variable on the success of their design. They will report their findings in a presentation to... View full description >>

Wave Attenuator Lesson 2: Building a Tidal Wave Attenuator

Average Rating:
0
Author:
Tabatha Roderick
Intended Grade Level(s):
6th
7th
8th
9th
10th
11th
12th
Subject Area(s) Covered:
Electromagnetic Induction
renewable energy
Wave Fundamentals
Electricity Generation
Estimated Activity Length:
2 hours 30 min
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.

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. View full description >>

Wave Attenuator Lesson 1: Introduction to Electromagnetism

Average Rating:
0
Author:
Tabatha Roderick
Intended Grade Level(s):
6th
7th
8th
9th
10th
11th
12th
Subject Area(s) Covered:
Electromagnetic Induction
Faraday’s Law
Electromagnets
Magnetic Properties of Current-carrying Wires
Estimated Activity Length:
3 hours 10 min
Learning Goal(s):

1. Students will demonstrate energy transfer through space using electromagnetic phenomena.
2. Students will design a model that demonstrates that a current-carrying wire can induce magnetism.
3. Students will define and build an electromagnet.
4. Students will demonstrate electromagnetic induction.

Through a series of goal-oriented activities and research, students will build physical models that demonstrate the interactions between magnetism and magnetic fields as well as interactions between magnetism and electric fields. Students will be challenged to engineer devices that: change a magnetic field using electricity, creating a magnet... View full description >>

How much energy do YOU use? (Lesson 3)

Average Rating:
0
Author:
Craig Marais
Intended Grade Level(s):
7th
8th
Subject Area(s) Covered:
Science
Power
Energy
electricity
Watt
Kilowatt
Kilowatt-hour
energy consumption
Estimated Activity Length:
0 sec
Learning Goal(s):

Students will be able to:
• Explain the difference between power and energy
• Proficiently use a “Kill-A-Watt” meter to determine the power and total energy usage
of everyday devices
• Compare the total energy used by common household devices
• Brainstorm different ways we can conserve electrical energy

Students will learn the difference between energy and power. They will then use this new understanding to compare the energy and power difference of light bulbs (incandescent, halogen, fluorescent, and LED)

... View full description >>

Solar Car Challenge Part 8: Redesigning Your Solution & Results of the Design Process Activity

Average Rating:
0
Author:
Karen Nelson
Intended Grade Level(s):
6th
7th
8th
Subject Area(s) Covered:
physics
Energy
electricity
solar
motion
Engineering
Estimated Activity Length:
2 hours 30 min
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.

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

Solar Car Challenge Part 7: Solutions Briefing

Average Rating:
0
Author:
Karen Nelson
Intended Grade Level(s):
6th
7th
8th
Subject Area(s) Covered:
physics
Energy
electricity
solar
motion
Engineering
Estimated Activity Length:
50 min
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.

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

Solar Car Challenge Part 6: Test Your Solution

Average Rating:
0
Author:
Karen Nelson
Intended Grade Level(s):
6th
7th
8th
Subject Area(s) Covered:
physics
Energy
electricity
solar
motion
Engineering
Estimated Activity Length:
50 min
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.

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

Solar Car Challenge Part 5: Develop Your Solution

Average Rating:
0
Author:
Karen Nelson
Intended Grade Level(s):
6th
7th
8th
Subject Area(s) Covered:
physics
Energy
electricity
solar
motion
Engineering
Estimated Activity Length:
50 min
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.

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

Solar Car Challenge Part 4: Team Brainstorm

Average Rating:
0
Author:
Karen Nelson
Intended Grade Level(s):
6th
7th
8th
Subject Area(s) Covered:
physics
Energy
electricity
solar
motion
Engineering
Estimated Activity Length:
50 min
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.

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

Solar Car Challenge Part 3: Background Research on Car Design

Average Rating:
0
Author:
Karen Nelson
Intended Grade Level(s):
6th
7th
8th
Subject Area(s) Covered:
physics
Energy
electricity
solar
motion
Engineering
Estimated Activity Length:
50 min
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.

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

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