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Course Criteria
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4.00 Credits
Lecture-3 hours; laboratory-3 hours. Prerequisite:course 9C or 9HD or consent of instructor. Continuation of course 116A. Introduction to the use of digital electronics and microcomputers in experimental physics. Nonlinear electronics, integrated circuits, analog-to-digital and digital-to-analog converters, transducers, actuators.-II. (II.) Pellett
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4.00 Credits
Lecture-3 hours; laboratory-3 hours. Prerequisite:course 9D or 9HD, 116B, Mathematics 22B or consent of instructor. Introduction to techniques for making physical measurements using computer-based instrumentation.-III. (III.) Pellett
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4.00 Credits
Laboratory-8 hours; extensive problem solving. Prerequisite: course 9D with grade C- or better or consent of instructor. Experimental techniques and measurements in atomic, condensed matter, nuclear and high energy physics. Student performs three to six experiments depending on difficulty. Individual work is stressed. May be repeated for credit.-II, III. (II, III.)
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4.00 Credits
Laboratory-8 hours. Prerequisite: course 115A or consent of the department. Experimental techniques and measurements in solid-state physics. Student performs three to six experiments depending on difficulty. Individual work is stressed. Thorough write-ups of the experiments are required.-II. (II.)
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4.00 Credits
Laboratory-8 hours. Prerequisite: course 115A or consent of the department. Experimental techniques and measurements in nuclear and particle physics. Students perform three to six experiments depending on difficulty. Individual work is stressed. Thorough write-ups of the experiments are required.-II. (II.)
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4.00 Credits
Lecture-3 hours; project-1 hour. Prerequisite:courses 9A, B, C, D and 104A, or consent of instructor. Techniques of measurement and analysis designed to avoid systematic error and maximize signal/noise ratio. Illustrative examples of optimal filters ranging from condensed matter to cosmology. Not open to students who have completed this course previously as course 198.-II. (II.) Tyson
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:course 105A or consent of instructor. Introduction to cosmology.-III. (III.)
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4.00 Credits
Lecture-3 hours; extensive problem solving. Prerequisite: course 105A passed with grade C- or better, or consent of instructor. Celestial mechanics, radiation, astrophysical measurements, electromagnetic processes, the sun, binary and variable stars, stellar structure and evolution, galaxies, cosmology.-II. (II.)
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4.00 Credits
Lecture-3 hours; extensive problem solving. Prerequisite: course 115A passed with a grade of C- or better or consent of instructor. Survey of basic nuclear properties and concepts requiring introductory knowledge of quantum mechanics: nuclear models and forces, radioactive decay and detecting nuclear radiation and nuclear reaction products, alpha, beta and gamma decay.-III. (III.)
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4.00 Credits
Lecture-3 hours; term paper. Prerequisite: course 129A. Continuation of course 129A. Nuclear reactions, neutrons, fission, fusion accelerators, introduction to meson and particle physics, nuclear astrophysics, and applications of nuclear physics and techniques to mass spectrometry, nuclear medicine, trace element analysis. Not offered every year.
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