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Course Criteria
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3.00 Credits
No course description available.
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1.00 Credits
Experiments to accompany Biophysics?Lecture. (2 hours)
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3.00 Credits
Thermodynamics of the body, pressure, hemodynamics, nerve cells, transmission of signals, electrocardiography, transport phenomena, diffusion, osmosis, radiation, production and use of X-rays, nuclear medicine, physics of the eye and ear, exponential growth and decay, measurement, instrumentation.
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1.00 Credits
Experiments to accompany Biophysics?Lecture. (2 hours)
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2.00 Credits
Thermodynamics of the body, pressure, hemodynamics, nerve cells, transmission of signals, electrocardiography, transport phenomena, diffusion, osmosis, radiation, production and use of X-rays, nuclear medicine, physics of the eye and ear, exponential growth and decay, measurement, instrumentation.
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3.00 Credits
Einstein's special and general theories of relativity; underlying physical and mathematical concepts; formulation of Einstein's theory of gravitation; mathematical structure, observational tests, exact and approximate methods of solution; problem of gravitational radiation; theory of motion of ponderable bodies.
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2.00 Credits
No course description available.
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3.00 Credits
Einstein's special and general theories of relativity; underlying physical and mathematical concepts; formulation of Einstein's theory of gravitation; mathematical structure, observational tests, exact and approximate methods of solution; problem of gravitational radiation; theory of motion of ponderable bodies.
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1.00 Credits
This is a theoretical course that addresses both fundamentals and applications of quantum systems for which interfaces of different materials play a dominant role. Topics to be covered include water-solid interfaces and applications in optoelectronics.
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3.00 Credits
Basic use of symbolic logic software and exploration of different areas of physics through numerical and computational techniques, including random-walk models, accretion phenomena, Monte Carlo methods in statistical physics, cellular automata, complexity, chaos, and planetary motion. Methods of interpolation, rates of convergence, projection methods, boundary problems and singular perturbation methods.
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