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Course Criteria
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3.00 Credits
The course is a broad overview of the problems associated with biomedical instrumentation and measurement of biosignals. The course introduces basic biomedical measurement techniques and hands-on activities demonstrating how standard biomedical equipment available in our lab is used. Examples of topics include measuring electric skin resistance, recording myograms that trace muscle contractions, electocardiograms (ECG), electroencephalograms (EEG), measuring hemoglobin concentration using functional near-infrared scanners (fNIR), measuring characteristics of ocular motion with eye tracking devices and more. This course and integrated hands-on activities emphasize the effective use of standard, commercially available biomedical devices for basic physiological signal measurements.
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3.00 Credits
An introduction to the concepts and methods of computer modeling of excitable cells. Topics include basic electrophysiology of excitable cells, biophysics of ion conduction, mathematical modeling of activation/inactivation mechanisms using experimental data, and computer simulations. NOTE: Please refer to the appropriate academic catalog for additional course information concerning prerequisites, co-requisites and course restrictions..
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0.00 Credits
A student works under faculty supervision to learn a research method, to explore possible research topics, or to continue an ongoing study. The faculty member helps the student to determine the course goals and objectives, and supervises the execution of project. The student will provide a written report to the faculty at the end of the semester. Students will receive a grade of "S" (satisfactory) or "U" (unsatisfactory) for the course. NOTE: Please refer to the appropriate academic catalog for additional course information concerning prerequisites, co-requisites and course restrictions..
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3.00 Credits
Individual instruction given by a tutor in regularly scheduled meetings (usually once a week). NOTE: Please refer to the appropriate academic catalog for additional course information concerning prerequisites, co-requisites and course restrictions..
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3.00 Credits
An introduction to the principles of quantum mechanics in one, two, and three dimensions. Topics may include the wave function, the Schrodinger equation, operators, the hydrogen atom, bra-ket notation, spin, and identical particles.
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3.00 Credits
Further development and applications of the principles of quantum mechanics. Topics may include a more mathematical formulation of quantum theory, perturbation theory, the variational method, electromagnetic radiation, scattering theory, the path integral formulation, and the EPR paradox.
Prerequisite:
PHYS 403
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3.00 Credits
An introduction to quantum statistical mechanics, thermodynamic functions, and the laws of thermodynamics. There is an emphasis on the fundamental concepts to astrophysics, atmospheric physics, low-temperature physics, and solid-state physics. NOTE: Please refer to the appropriate academic catalog for additional course information concerning prerequisites, co-requisites and course restrictions.
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3.00 Credits
An introduction to the theory of the nucleus, including constituents of the nucleus; nuclear forces and structure; natural and induced radioactivity; properties of alpha, beta and gamma radiation; particle accelerators; and fission, fusion and nuclear reactors. Lectures three hours per week. NOTE: Please refer to the appropriate academic catalog for additional course information concerning prerequisites, co-requisites and course restrictions..
Prerequisite:
PHYS 230
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3.00 Credits
A survey of the fundamental principles determining the macroscopic properties of solids. The lattice system and the electron system are investigated as a basis for understanding dielectric, magnetic, optical, semiconductive and superconductive behavior in solids. Lectures three hours per week. NOTE: Please refer to the appropriate academic catalog for additional course information concerning prerequisites, co-requisites and course restrictions..
Prerequisite:
PHYS 230
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3.00 Credits
This is an intermediate course in electonmagnetism with particular emphasis to electostatics and magnetostatics. The major topics covered in this course are: electostatic fields; magnetostatic fields; electic current and Lorentz force law; conductores, capacitors. and dielectric materials; magnetic materials; and electomagnetic induction.
Prerequisite:
( PHYS 112 OR HONS 158 ) AND MATH 323
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