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Course Criteria
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3.00 Credits
Basic concepts in mechanics, statistical physics, atomic and nuclear structure, and radiative transfer are developed and applied to selected fundamental problems in the areas of stellar structure, stellar atmospheres, the interstellar medium, and extragalactic astrophysics. (Y) Prerequisites & Notes Prerequisite: ASTR 211, 212; PHYS 252, or instructor permission. Credits: 3
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1.00 - 4.00 Credits
New course in the subject of astronomy.
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3.00 Credits
Basic concepts in mechanics, statistical physics, atomic and nuclear structure, and radiative transfer are developed and applied to selected fundamental problems in the areas of stellar structure, stellar atmospheres, the interstellar medium, and extragalactic astrophysics.
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3.00 Credits
May be repeated once for credit. (S) Prerequisites & Notes Prerequisite: Instructor permission. Credits: 3
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3.00 Credits
Studies a topic of special interest to the student under individual supervision by a faculty member. May be repeated once for credit.
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3.00 Credits
May be repeated once for credit.
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3.00 Credits
An introduction to the basic physics of astronomy and astrophysics organized around learning physical principles and applying them to astrophysical objects. Physics covered will be chosen from fluid mechanics, radiative transfer, statistical mechanics, classical and quantum radiation processes, and quantum mechanics of atomic and molecular structure. This graduate course will involve more complex and difficult assignments than ASTR 4810.
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3.00 Credits
Surveys modern techniques of radiation measurement, data analysis, and image processing, and their application to astrophysical problems, especially the physical properties of stars and galaxies. Relevant laboratory experiments and observations with the department’s telescopes are included. Students are expected to develop a familiarity with programming and other basic computer skills if they do not already possess them.
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3.00 Credits
Studies the fundamentals of measuring power and power spectra, antennas, interferometers, and radiometers. Topics include thermal radiation, synchrotron radiation, and line frequency radiation; and radio emission from the planets, sun, flare stars, pulsars, supernovae, interstellar gas, galaxies, and quasi-stellar sources.
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3.00 Credits
An introduction to the instrumentation of radio astronomy. Discussion includes fundamentals of measuring radio signals, noise theory, basic radiometry, antennas, low noise electronics, coherent receivers, signal processing for continuum and spectral line studies, and arrays. Lecture material is supplemented by illustrative labs.
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