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Course Criteria
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3.00 Credits
Caws See the University Professors course listing.
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3.00 Credits
Zysmilich and Staff Contemporary topics in physical, biological, and medical science. Chem 3 is not prerequisite to Chem 4. Laboratory fee. (Academic year)
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4.00 Credits
Bennhold, Feldman Classical physics. Mechanics, including Newton's laws of motion, force, gravitation, equilibrium, work and energy, momentum, and rotational motion; periodic motion, waves, and sound; heat and thermodynamics. Prerequisite: high school trigonometry. Laboratory fee. (Fall and spring)
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4.00 Credits
Feldman, Bennhold Classical and modern physics. Electrostatics, electromagnetism, direct and alternating current circuits, and electromagnetic radiation; geometrical and physical optics; special relativity; quantum theory; atomic physics; nuclear physics; particle physics; astrophysics and cosmology. Prerequisite: Phys 11. Laboratory fee. (Fall and spring)
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3.00 Credits
Parke Physical principles applied to biological systems and medicine, and current instrumentation and technology. Topics include blood flow, ultrasonics, spectroscopy, radiation biology, bioenergetics, ordering theory, and neural networks. Prerequisite: Phys 12 or 22; Math 32. (Fall)
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3.00 Credits
Zeng, Parke Physical principles applied to biological systems on the nanometer scale. Topics include intermolecular forces, statistical principles applied to biological microstates, determining protein and nucleic acid structures, operation of protein motors and transport systems, together with nanotechnology and instrumentation. Prerequisite: Phys 12 or 22; Math 33. (Spring)
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3.00 Credits
Strakovsky Experiments in electromagnetism, classical and quantum mechanics, atomic and nuclear physics with emphasis on experimental methods. Laboratory fee. (Fall and spring)
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3.00 Credits
Staff Elementary electric and electronic analog and digital circuits. Topics include passive and active components in DC and AC circuits and operational amplifiers, with emphasis on measurement techniques. Laboratory fee. (Spring)
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3.00 Credits
Workman Mechanics of mass points and rigid bodies. Newton's laws, conservation laws, Euler's equations, inertia tensor, small vibrations, and elements of Lagrange's and Hamilton's equations. Prerequisite: Phys 23; Math 33. (Sprin
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4.00 Credits
Staff Wave motion, electromagnetic aspects of light, dispersion of light in media, geometrical optics, polarization and optical properties of crystals, interference, diffraction, lasers, holography. Mathematical tools, including Fourier methods, developed as needed. The quantum description of light complements the classical description. Prerequisite: Phys 23; Math 33. Laboratory fee.
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