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Handout
National High Magnetic Field Laboratory

Magnet Academy: Isidor Isaac Rabi

For Students 9th - 10th
Isidor Isaac Rabi won the Nobel Prize in Physics in 1944 for his development of a technique for measuring the magnetic characteristics of atomic nuclei. Rabi's technique was based on the resonance principle first described by Irish...
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Handout
National High Magnetic Field Laboratory

Magnet Academy: Jack Kilby

For Students 9th - 10th
The integrated circuit fueled the rise of microelectronics in the latter half of the twentieth century and paved the way for the Information Age. An American engineer, Jack Kilby, invented the integrated circuit in 1958, shortly after he...
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Handout
National High Magnetic Field Laboratory

Magnet Academy: Heike Kamerlingh Onnes

For Students 9th - 10th
Heike Kamerlingh Onnes was a Dutch physicist who first observed the phenomenon of superconductivity while carrying out pioneering work in the field of cryogenics. An important step on the way to this discovery was his success in...
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Handout
National High Magnetic Field Laboratory

Magnet Academy: Heinrich Friedrich Emil Lenz

For Students 9th - 10th
At the turn of the 19th century, scientists were beginning to gain a rudimentary understanding of electricity and magnetism, but they knew almost nothing about the relationship between the two. Baltic German physicist Heinrich Lenz took...
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Handout
National High Magnetic Field Laboratory

Magnet Academy: John Daniel Kraus

For Students 9th - 10th
For a man whose career involved the entire known universe, John Kraus had a remarkably insular upbringing. He was born and raised in Ann Arbor, Michigan, and earned his bachelor's, master's and doctoral degrees in physics, all at the...
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Handout
National High Magnetic Field Laboratory

Magnet Academy: James Clerk Maxwell

For Students 9th - 10th
James Clerk Maxwell was one of the most influential scientists of the nineteenth century. His theoretical work on electromagnetism and light largely determined the direction that physics would take in the early twentieth century. Indeed,...
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Handout
National High Magnetic Field Laboratory

Magnet Academy: Jean Charles Athanase Peltier (1785 1845)

For Students 9th - 10th
Although he didn't start studying physics until he retired from the clock-making business at age 30, French native Jean Peltier made immense contributions to science that still reverberate today. Even with the primitive tools available...
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Graphic
Khan Academy

Khan Academy: Experiment: What's the Shape of a Magnetic Field?

For Students 9th - 10th
See drawing from Hans Christian Orsted's lab notebook showing an experiment in which an electric charge passing through a wire seemed to create a magnetic field!
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Online Course
Cosmo Learning

Cosmo Learning: Applied Science and Technology 210: Electrical Engineering

For Students 9th - 10th
A collection of video lectures from a course that explores the application of electrical engineering topics. Webpage includes twenty-eight lectures from a professor at the University of California, Berkeley. Lectures vary in length and...
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Website
Other

University of Liverpool: Matter Initiative for Schools a Level Resources

For Students 9th - 10th
This site features numerous interactive resources (such as simulations, interactive exercises, experiments, etc.) designed for teachers and students of the physical sciences. Some of the resources are available only on CD-ROM, but most...
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Handout
National High Magnetic Field Laboratory

Magnet Academy: Timeline of Electricity and Magnetism: 1880 1889

For Students 9th - 10th
Nikola Tesla and Thomas Edison duke it out over the best way to transmit electricity and Heinrich Hertz is the first person (unbeknownst to him) to broadcast and receive radio waves.
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Handout
National High Magnetic Field Laboratory

Magnet Academy: Timeline of Electricity and Magnetism: 1820 1829

For Students 9th - 10th
Hans Christian Orsted's accidental discovery that an electrical current moves a compass needle rocks the scientific world; a spate of experiments follows, immediately leading to the first electromagnet and electric motor.
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Handout
National High Magnetic Field Laboratory

Magnet Academy: Timeline of Electricity and Magnetism: 1930 1939

For Students 9th - 10th
New tools such as special microscopes and the cyclotron take research to higher levels, while average citizens enjoy novel amenities such as the FM radio.
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Handout
National High Magnetic Field Laboratory

Magnet Academy: Timeline of Electricity and Magnetism: 1910 1929

For Students 9th - 10th
Scientists' understanding of the structure of the atom and of its component particles grows, the phone and radio become common, and the modern television is born.
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Handout
National High Magnetic Field Laboratory

Magnet Academy: Timeline of Electricity and Magnetism: 1890 1899

For Students 9th - 10th
Scientists discover and probe x-rays and radioactivity, while inventors compete to build the first radio.
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Handout
National High Magnetic Field Laboratory

Magnet Academy: Timeline of Electricity and Magnetism: 1900 1909

For Students 9th - 10th
Albert Einstein publishes his special theory of relativity and his theory on the quantum nature of light, which he identified as both a particle and a wave. With ever new appliances, electricity begins to transform everyday life.
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Activity
Read Works

Read Works: Electric and Magnetic Forces and the Modern Day Compass

For Teachers 5th Standards
[Free Registration/Login Required] An informational text about how a compass works using electromagnetic force. A question sheet is available to help students build skills in reading comprehension.
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Handout
Wolfram Research

Wolfram Science World: Magnetic Permeability

For Students 9th - 10th
This site defines magnetic permeability in terms of magnetic fields, and relates magnetic permeability to magnetic susceptibility and relative permeability.
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Handout
Wolfram Research

Wolfram Science World: Magnetic Monopoles

For Students 9th - 10th
Some information about the search for magnetic monopoles, and how they are involved in a few different theories and postulations.
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Handout
American Association of Physics Teachers

Com Padre Digital Library: Open Source Physics: Charge Trajectories

For Teachers 9th - 10th
Investigate a the forces exerted on a charged particle by electric and magnetic fields. Initially, find out how the charge behaves in an electric field. Then, see how the charge behaves in a magnetic field. Finally, initiate both fields...
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Handout
American Association of Physics Teachers

Com Padre Digital Library: Open Source Physics: Electric Generator Model

For Teachers 9th - 10th
An electromagnetic induction model that simulates an electric generator made from a conducting loop rotating in a uniform magnetic field and connected to an ammeter.
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Handout
American Association of Physics Teachers

Com Padre Digital Library: Open Source Physics: Faraday Disk Dynamo Model

For Teachers 9th - 10th
This simulation demonstrates a rotating conducting disk in a magnetic field which produces a current or a self-exciting dynamo.
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Handout
American Association of Physics Teachers

Com Padre Digital Library: Open Source Physics: Rail Gun Model

For Teachers 9th - 10th
Simulate the movement of a rail gun in this interactive model. Learn how a magnetic field is generated by running electrical current through long rods that accelerates a current-carrying cross-rod.
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Handout
Wolfram Research

Wolfram Science World: Maxwell, James

For Students 9th - 10th
This ScienceWorld site describes the Scottish mathematician and physicist James Maxwell (1831-1879) who published physical and mathematical theories of the electromagnetic field.