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Faraday's Law (AR)
Unrestricted Use
CC BY
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Light a light bulb by waving a magnet. This demonstration of Faraday's Law shows you how to reduce your power bill at the expense of your grocery bill.

Subject:
Physical Science
Physics
Material Type:
Simulation
Provider:
University of Colorado Boulder
Provider Set:
PhET Interactive Simulations
Author:
Dubson, Michael
Loeblein, Patricia
Date Added:
07/01/2006
Fundamentals of Physics, II
Conditional Remix & Share Permitted
CC BY-NC-SA
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This is a continuation of Fundamentals of Physics, I (PHYS 200), the introductory course on the principles and methods of physics for students who have good preparation in physics and mathematics. This course covers electricity, magnetism, optics and quantum mechanics.

Subject:
Physical Science
Physics
Material Type:
Full Course
Provider:
Yale University
Provider Set:
Open Yale Courses
Author:
Ramamurti Shankar
Date Added:
11/09/2017
Generator
Unrestricted Use
CC BY
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Generate electricity with a bar magnet! Discover the physics behind the phenomena by exploring magnets and how you can use them to make a bulb light.

Subject:
Physical Science
Physics
Material Type:
Simulation
Provider:
University of Colorado Boulder
Provider Set:
PhET Interactive Simulations
Author:
Archie Paulson
Carl Wieman
Chris Malley
Danielle Harlow
Dubson, Michael
Harlow, Danielle
Kathy Perkins
Malley, Chris
Michael Dubson
Paulson, Archie
Perkins, Kathy
PhET Interactive Simulations
Wieman, Carl
Date Added:
04/01/2008
The Good, the Bad and the Electromagnet
Read the Fine Print
Educational Use
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Using plastic straws, wire, batteries and iron nails, student teams build and test two versions of electromagnets one with and one without an iron nail at its core. They test each magnet's ability pick up loose staples, which reveals the importance of an iron core to the magnet's strength. Students also learn about the prevalence and importance of electromagnets in their everyday lives.

Subject:
Career and Technical Education
Education
Technology and Engineering
Material Type:
Activity/Lab
Provider:
TeachEngineering
Provider Set:
TeachEngineering NGSS Aligned Resources
Author:
Mandek Richardson and James Cooper (under the advisement of Patricio Rocha, Dayna Martinez and Tapas K. Das)
STARS GK-12 Program,
Date Added:
09/18/2014
Introduction to Electricity by Creating a Light Up Quiz Board
Conditional Remix & Share Permitted
CC BY-NC-SA
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This activity is a guided demonstration where students create light up quiz boards to demonstrate electricity vocabulary.

Subject:
Physical Science
Physics
Material Type:
Activity/Lab
Assessment
Lesson Plan
Simulation
Provider:
Science Education Resource Center (SERC) at Carleton College
Provider Set:
Pedagogy in Action
Author:
Sarah Morinville
Date Added:
02/10/2023
Introduction to Electromagnetism
Unrestricted Use
CC BY
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In this course, the student will first learn about waves and oscillations in extended objects using classical mechanics. The course will then examine the sources and laws that govern static electricity and magnetism. A brief look at electrical measurements and circuits will help establish how electromagnetic effects are observed, measured, and applied. These topics lead to an examination of how Maxwell's equations unify electric and magnetic effects and how the solutions to Maxwell's equations describe electromagnetic radiation, which will serve as the basis for understanding all electromagnetic radiation, from very low frequency radiation emitted by power transmission lines to the most powerful astrophysical gamma rays. The course also investigates optics and launches a brief overview of Einstein's special theory of relativity. A basic knowledge of calculus is assumed. (Physics 102; See also: Biology 110, Chemistry 002, Mechanical Engineering 006)

Subject:
Physical Science
Physics
Material Type:
Full Course
Provider:
The Saylor Foundation
Date Added:
11/09/2017
Investigating Circuits: Building and Comparing Current Intensities of Series, Parallel, and Complex Circuits
Conditional Remix & Share Permitted
CC BY-NC-SA
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This activity is a indoor lab where students investigate the current differences in different circuits where students build a small house and construct different types of circuits.

Subject:
Physical Science
Physics
Material Type:
Activity/Lab
Assessment
Lesson Plan
Provider:
Science Education Resource Center (SERC) at Carleton College
Provider Set:
Pedagogy in Action
Author:
Stephanie Marsh
Date Added:
02/10/2023
Investigating Electricity
Conditional Remix & Share Permitted
CC BY-NC-SA
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This activity is a group lab activity where students explore beginning electrical circuits.

Subject:
Physical Science
Physics
Material Type:
Activity/Lab
Assessment
Lesson Plan
Provider:
Science Education Resource Center (SERC) at Carleton College
Provider Set:
Pedagogy in Action
Author:
Jodi Warner
Date Added:
02/10/2023
Investigating Motors and Magnetism
Conditional Remix & Share Permitted
CC BY-NC-SA
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This activity is an activity where students build a motor, learn motor operation and theory, interpret their understanding through troubleshooting, and develop a new, experimental question related to the motor. One follow-up activity would be coupling their motor to a fan blade or other axle to convert electrical energy to magnetic energy into mechanical motion for real world application.

Subject:
Physical Science
Physics
Material Type:
Activity/Lab
Assessment
Lesson Plan
Provider:
Science Education Resource Center (SERC) at Carleton College
Provider Set:
Pedagogy in Action
Author:
David Reierson
Date Added:
02/10/2023
Learning the science behind electricity.
Conditional Remix & Share Permitted
CC BY-NC-SA
Rating
0.0 stars

This is an interactive powerpoint lecture on the science of electricity followed by a laboratory investigation where students dissect a disposable camera.

Subject:
Physical Science
Physics
Material Type:
Activity/Lab
Assessment
Lesson Plan
Provider:
Science Education Resource Center (SERC) at Carleton College
Provider Set:
Pedagogy in Action
Author:
Andrea Dammann
Date Added:
02/10/2023
Lighting the Way: Electrical Circuits and Lamp Wiring
Conditional Remix & Share Permitted
CC BY-NC-SA
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This self-paced unit for students in grades 6-9 provides an opportunity to explore basic electrical circuits and demonstrate the new knowledge by wiring a lamp, explaining the components of the lamp that are important for the flow of electricity, and completing a schematic of the lamp circuitry.

Subject:
Career and Technical Education
Technology and Engineering
Material Type:
Activity/Lab
Provider:
Science Education Resource Center (SERC) at Carleton College
Provider Set:
Pedagogy in Action
Author:
Nichole A. Kotasek
Date Added:
02/10/2023
MRI Safety Grand Challenge
Read the Fine Print
Educational Use
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Students are given an engineering challenge: A nearby hospital has just installed a new magnetic resonance imaging facility that has the capacity to make 3D images of the brain and other body parts by exposing patients to a strong magnetic field. The hospital wishes for its entire staff to have a clear understanding of the risks involved in working near a strong magnetic field and a basic understanding of why those risks occur. Your task is to develop a presentation or pamphlet explaining the risks, the physics behind those risks, and the safety precautions to be taken by all staff members. This 10-lesson/4-activity unit was designed to provide hands-on activities to teach end-of-year electricity and magnetism topics to a first-year accelerated or AP physics class. Students learn about and then apply the following science concepts to solve the challenge: magnetic force, magnetic moments and torque, the Biot-Savart law, Ampere's law and Faraday's law. This module is built around the Legacy Cycle, a format that incorporates findings from educational research on how people best learn.

Subject:
Career and Technical Education
Physical Science
Physics
Technology and Engineering
Material Type:
Full Course
Unit of Study
Provider:
TeachEngineering
Provider Set:
TeachEngineering NGSS Aligned Resources
Author:
Eric Appelt
Meghan Murphy
VU Bioengineering RET Program,
Date Added:
09/18/2014
Magnet Hunt
Restricted Use
Copyright Restricted
Rating
0.0 stars

The kids have to use magnetic waves to find all of Mr. Hart's magnets that Max and Honey hid throughout the yard. Magnetic Fields radiate from the N to the S side of a magnet in a predictable way. By changing the shape of the magnet, these fields change shape.

Subject:
Earth and Space Science
Geology
Physical Science
Physics
Material Type:
Game
Interactive
Other
Provider:
Field Day
Date Added:
08/04/2016
Magnet and Compass
Unrestricted Use
CC BY
Rating
0.0 stars

Ever wonder how a compass worked to point you to the Arctic? Explore the interactions between a compass and bar magnet, and then add the earth and find the surprising answer! Vary the magnet's strength, and see how things change both inside and outside. Use the field meter to measure how the magnetic field changes.

Subject:
Physical Science
Physics
Material Type:
Simulation
Provider:
University of Colorado Boulder
Provider Set:
PhET Interactive Simulations
Author:
Archie Paulson
Carl Wieman
Chris Malley
Danielle Harlow
Dubson, Michael
Harlow, Danielle
Kathy Perkins
Malley, Chris
Michael Dubson
Paulson, Archie
Perkins, Kathy
PhET Interactive Simulations
Wieman, Carl
Date Added:
01/23/2011
Magnetic Fields Matter
Read the Fine Print
Educational Use
Rating
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This lesson introduces students to the effects of magnetic fields in matter addressing permanent magnets, diamagnetism, paramagnetism, ferromagnetism, and magnetization. First students must compare the magnetic field of a solenoid to the magnetic field of a permanent magnet. Students then learn the response of diamagnetic, paramagnetic, and ferromagnetic material to a magnetic field. Now aware of the mechanism causing a solid to respond to a field, students learn how to measure the response by looking at the net magnetic moment per unit volume of the material.

Subject:
Career and Technical Education
Physical Science
Physics
Technology and Engineering
Material Type:
Activity/Lab
Lesson Plan
Provider:
TeachEngineering
Provider Set:
TeachEngineering NGSS Aligned Resources
Author:
Eric Appelt
VU Bioengineering RET Program, School of Engineering,
Date Added:
09/18/2014
Magnetic Fields and Distance
Read the Fine Print
Educational Use
Rating
0.0 stars

Students measure the relative intensity of a magnetic field as a function of distance. They place a permanent magnet selected distances from a compass, measure the deflection, and use the gathered data to compute the relative magnetic field strength. Based on their findings, students create mathematical models and use the models to calculate the field strength at the edge of the magnet. They use the periodic table to predict magnetism. Finally, students create posters to communicate the details their findings. This activity guides students to think more deeply about magnetism and the modeling of fields while practicing data collection and analysis. An equations handout and two grading rubrics are provided.

Subject:
Algebra
Chemistry
Mathematics
Physical Science
Physics
Material Type:
Activity/Lab
Provider:
TeachEngineering
Author:
Nanotechnology RET, Department of Earth Science, School Science and Technology, Rice University
Ralph Cox
Sabina Schill
Date Added:
10/13/2017
Magnetic Materials, Spring 2004
Conditional Remix & Share Permitted
CC BY-NC-SA
Rating
0.0 stars

Magnetostatics, origin of magnetism in materials, magnetic domains and domain walls, magnetic anisotropy, reversible and irreversible magnetization processes; hard and soft magnetic materials and magnetic recording. Special topics: magnetism of thin films, surfaces and fine particles; transport in ferromagnets, magnetoresistive sensors, and amorphous magnetic materials.

Subject:
Career and Technical Education
Technology and Engineering
Material Type:
Full Course
Provider:
M.I.T.
Provider Set:
M.I.T. OpenCourseWare
Author:
O'Handley, Robert C.
Date Added:
01/01/2004
A Magnetic Personality
Read the Fine Print
Educational Use
Rating
0.0 stars

Students learn about magnets and how they are formed. They investigate the properties of magnets and how engineers use magnets in technology. Specifically, students learn about magnetic memory storage, which is the reading and writing of data information using magnets, such as in computer hard drives, zip disks and flash drives.

Subject:
Career and Technical Education
Physical Science
Physics
Technology and Engineering
Material Type:
Activity/Lab
Lesson Plan
Provider:
TeachEngineering
Provider Set:
TeachEngineering NGSS Aligned Resources
Author:
Abigail Watrous
Denise W. Carlson
Integrated Teaching and Learning Program,
Joe Friedrichsen
Malinda Schaefer Zarske
Date Added:
09/18/2014
Magnets and Electromagnets
Unrestricted Use
CC BY
Rating
0.0 stars

Explore the interactions between a compass and bar magnet. Discover how you can use a battery and wire to make a magnet! Can you make it a stronger magnet? Can you make the magnetic field reverse?

Subject:
Physical Science
Physics
Material Type:
Simulation
Provider:
University of Colorado Boulder
Provider Set:
PhET Interactive Simulations
Author:
Archie Paulson
Carl Wieman
Chris Malley
Danielle Harlow
Dubson, Michael
Harlow, Danielle
Kathy Perkins
Malley, Chris
Michael Dubson
Paulson, Archie
Perkins, Kathy
PhET Interactive Simulations
Wieman, Carl
Date Added:
12/02/2010
Materials Laboratory, Fall 2006
Conditional Remix & Share Permitted
CC BY-NC-SA
Rating
0.0 stars

This course is a required sophomore subject in the Department of Materials Science and Engineering, designed to be taken in conjunction with the core lecture subject 3.012 Fundamentals of Materials Science and Engineering. The laboratory subject combines experiments illustrating the principles of quantum mechanics, thermodynamics and structure with intensive oral and written technical communication practice. Specific topics include: experimental exploration of the connections between energetics, bonding and structure of materials, and application of these principles in instruments for materials characterization; demonstration of the wave-like nature of electrons; hands-on experience with techniques to quantify energy (DSC), bonding (XPS, AES, FTIR, UV/vis and force spectroscopy), and degree of order (x-ray scattering) in condensed matter; and investigation of structural transitions and structure-property relationships through practical materials examples.

Subject:
Career and Technical Education
Technology and Engineering
Material Type:
Full Course
Provider:
M.I.T.
Provider Set:
M.I.T. OpenCourseWare
Author:
Stellacci, Francesco
Date Added:
01/01/2006