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Course Criteria
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3.00 Credits
bG ,Galaxies
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3.00 Credits
Staff. 3htba QR,Sc Meets RP (0) Applications to astrophysics and geophysics of the theory of radiation fields. Specific examples from stellar physics; stellar and planetary atmospheres; other astrophysical and geophysical processes. Prerequisites: math 120a or b and phys 201b. Taught in alternate years.
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3.00 Credits
bG ,Stellar Astrophysics
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3.00 Credits
Richard Easther. For description see under Physics.
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3.00 Credits
Pieter van Dokkum. 3htba QR,Sc Meets RP (50) Overview of cosmic history from the formation of the first star to the present day, focusing on direct observations of the high-redshift universe. Prerequisites: math 120a or b, phys 201b, and one astronomy course numbered above 200. Taught in alternate years.
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3.00 Credits
Staff. 3htba QR,Sc Meets RP (0) The large-scale contents and structure of the universe and the origin of galaxies. Prerequisites: phys 201b and math 246a or b or equivalents; astr 310a. Taught in alternate years. astr 490a and 491b, Independent Project in Astronomy. Consult the director of undergraduate studies. htba (0) Independent project supervised by a member of the department with whom the student meets regularly. The project must be approved by the instructor and by the director of undergraduate studies; the student is required to submit a complete written report on the project at the end of the term.
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3.00 Credits
Mark Saltzman and staff. mwf9.25-10.15 Sc (32) Regulation and control in biological systems, emphasizing human physiology and principles of feedback. Biomechanical properties of tissues emphasizing the structural basis of physiological control. Conversion of chemical energy into work in light of metabolic control and temperature regulation. Prerequisites: chem 113b or 115b or phys 180a and 181b, mcdb 120a. beng 351a/ceng 351a, Biomedical Engineering I: Quantitative Physiology. TarekFahmy. tth11.35-12.50 QR,Sc (24) Together with the companion course beng 352b, a yearlong presentation of the fundamentals of biomedical engineering. Demonstration of the use of engineering analysis and synthesis in problems in the life sciences and medicine; focus on modeling of molecular physiological processes and design of artificial organs. Lectures are coordinated with beng 350a to illustrate how engineering analysis can be used to understand physiological processes. Additional topics include pharmacokinetics, heat and mass transfer in physiological systems, hemodialysis, drug delivery, and tissue engineering. Concurrently with beng 350a. Prerequisites: mcdb 120a, chem 112a, 114a, or 118a; phys 180a, 181b; math 115a or b; enas 194a or b.
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3.00 Credits
James Duncan, FahmeedHyder. tth11.35-12.50 QR,Sc (24) In conjunction with beng 351a, a comprehensive introduction to the field of biomedical engineering. Topics include biosignals, medical imaging, mathematical modeling of biosystems, and biomechanics. Prerequisites: phys 180a and 181b, math 115a orb, and enas 194a orb.
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3.00 Credits
Lawrence Staib. mor t1-5 Sc §C Credit per term (0) Introduction to laboratory techniques and tools used for physiological measurement in biomedical engineering. Topics include bioelectric measurement, bioimaging technologies, signal processing, and dialysis. Enrollment limited.
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3.00 Credits
Douglas Rothman, Frederick Sigworth. tth1-2.15 QR,Sc (26) Basic principles and technologies for sensing the chemical, electrical, and structural properties of living tissues and of biological macromolecules. Topics include magnetic resonance spectroscopy, microelectrodes, fluorescent probes, chip-based biosensors, X-ray and electron tomography, and mri. Prerequisites: beng 351a and 352b or permission of instructor
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