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Course Criteria
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1.00 - 3.00 Credits
Prerequisite or corequisite: 225 or 225W, and either 226 or 226W, and Math 175.
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3.00 Credits
Theory and instrumentation in health physics and radiological physics. Radiation shielding design, methods of external and internal dosimetry, and radiation regulatory issues. Prerequisite: Either 225 or 225W and either Math 150b or 155b.
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2.00 Credits
Response of mammalian cells and systems to ionizing radiation. Acute radiation syndromes, carcinogenesis, genetic effects, and radiobiological basis of radiotherapy. Prerequisite: 224 and Biological Sciences 110a, 111a.
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1.00 Credits
Directed readings and discussions of current topics in physics. Normally limited to juniors and seniors with preference to majors. Prerequisite or corequisite: 225 or 225W, and either 226 or 226W, and Math 175.
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3.00 Credits
Wave-particle duality, indeterminacy, superposition, the Schrödinger equation, angular momentum, the hydrogen atom, and time-independent perturbation theory. Prerequisite or corequisite: 225 or 225W, and either 226 or 226W, and Math 175.
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3.00 Credits
Spin and indistinguishability, time-dependent perturbation theory, matrix theory, scattering, applications to atomic physics, condensed matter physics, and astrophysics. Prerequisite: 229a. Prerequisite or corequisite: 225 or 225W, and either 226 or 226W, and Math 175.
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3.00 Credits
Crystal structure and diffraction; phonons and lattice vibrations; free-electron theory of metals; elementary band theory of solids; semiconductors; optical properties of insulators; and applications to solid-state devices, magnetism, and superconductivity. Prerequisite: 223 and 227a. Prerequisite or corequisite: 225 or 225W, and either 226 or 226W, and Math 175.
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3.00 Credits
Weak, strong, and electromagnetic forces as evidenced by the interactions of elementary particles. Classification of particles and experimental techniques. Prerequisite or corequisite: 225 or 225W, and either 226 or 226W, and Math 175.
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3.00 Credits
Topics in modern physics analyzed exclusively with computer programs. Three-body solar system orbits, random walk diffusion and entropy growth, magnetism in the second order using model, non-equilibrium molecular dynamics, and solutions to the Schrödinger equation with numerical methods. Prerequisites: Prerequisite: One year of calculus-based physics and one year of calculus and either CS 101, CS 103, or familiarity with commercial mathematical applications (Mathematica, Mathcad, or even EXCEL).
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4.00 Credits
Basic physics principles and applications of radiation detecting instruments, with laboratory exercises. Techniques and instrumentation for nuclear radiation detection and measurements as they relate to health physics (radiation safety) and nuclear physics.
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