Keywords: Coulomb's Law
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A Radically Modern Approach to Introductory Physics Volume 1
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| Type: | Course Related Materials |
Abstract: This is the first part (chapters 1-12) of a pdf textbook for a one-year introductory physics course. The text was developed out of an alternate beginning physics course at New Mexico Tech designed for students with a strong interest in physics. A broad outline of the text is as follows: Waves in One ... More »
A Radically Modern Approach to Introductory Physics Volume 2
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Abstract: This is the second part (chapters 13-24) of a pdf textbook for a one-year introductory physics course. The text was developed out of an alternate beginning physics course at New Mexico Tech designed for students with a strong interest in physics. A broad outline of the text is as follows: Newton's Law ... More »
Balloons and Static Electricity
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Abstract: Why does a balloon stick to your sweater? Rub a balloon on a sweater, then let go of the balloon and it flies over and sticks to the sweater. View the charges in the sweater, balloons, and the wall.
Charges and Fields
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Abstract: Move point charges around on the playing field and then view the electric field, voltages, equipotential lines, and more. It's colorful, it's dynamic, it's free.
Double Wells and Covalent Bonds
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| Type: | Course Related Materials |
Abstract: Explore tunneling and splitting in double well potentials. This classic problem describes many physical systems, including covalent bonds, Josephson junctions, and two state systems such as spin 1/2 particles and ammonia molecules.
Electricity and Magnetism, Spring 2005
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Abstract: This freshman-level course is the second semester of introductory physics. The focus is on electricity and magnetism The subject is taught using the TEAL (Technology Enabled Active Learning) format which utilizes small group interaction and current technology. The TEAL/Studio Project at MIT is a new ... More »
Electromagnetic Interactions, Fall 2005
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Abstract: Principles and applications of electromagnetism, starting from Maxwell's equations, with emphasis on phenomena important to nuclear engineering and radiation sciences. Solution methods for electrostatic and magnetostatic fields. Charged particle motion in those fields. Particle acceleration and focussing. ... More »
Physics II: Electricity and Magnetism, Fall 2004
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| Type: | Course Related Materials |
Abstract: Parallel to 8.02, but more advanced mathematically. Some knowledge of vector calculus assumed. Maxwell's equations, in both differential and integral form. Electrostatic and magnetic vector potential. Properties of dielectrics and magnetic materials. In addition to the theoretical subject matter, several ... More »
Physics II: Electricity and Magnetism, Fall 2006
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| Type: | Course Related Materials |
Abstract: Parallel to 8.02, but more advanced mathematically. Some knowledge of vector calculus assumed. Maxwell's equations, in both differential and integral form. Electrostatic and magnetic vector potential. Properties of dielectrics and magnetic materials. In addition to the theoretical subject matter, several ... More »
Physics II: Electricity and Magnetism with an Experimental Focus, Spring 2005
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| Type: | Course Related Materials |
Abstract: Main emphasis on electricity and magnetism. Topics include currents and DC circuits; capacitance, resistance, and nonsteady currents; Coulomb's Law and electrostatic fields; Gauss's Law; electric potential; magnetic fields of currents; electromagnetic induction; magnetism and matter; AC circuits and ... More »
Relativity, Fall 2003
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| Type: | Course Related Materials |
Abstract: Normally taken by physics majors in their sophomore year. Einstein's postulates; consequences for simultaneity, time dilation, length contraction, clock synchronization; Lorentz transformation; relativistic effects and paradoxes; Minkowski diagrams; invariants and four-vectors; momentum, energy and mass; ... More »
Relativity, Fall 2006
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| Type: | Course Related Materials |
Abstract: Normally taken by physics majors in their sophomore year. Einstein's postulates; consequences for simultaneity, time dilation, length contraction, clock synchronization; Lorentz transformation; relativistic effects and paradoxes; Minkowski diagrams; invariants and four-vectors; momentum, energy and mass; ... More »