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Course Criteria
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4.00 Credits
An intermediate course in electricity. The fundamental principles involved in measuring electric and magnetic quantities, the use of high-grade electrical apparatus. Experiments include studies of galvanometers, Wheatstone bridges of various forms, potentiometers and standard cells, vacuum tubes, magnetic measurements and methods of measuring capacitance and inductance. Credits: 4 hrs Lecture/Lab Hours: Laboratory: four consecutive hours, one day per week. Prerequisite: PHY221/PHY223 and PHY222 or PHY224
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4.00 Credits
Theory and application of passive and semiconductor circuit elements. Analog and digital circuit analysis and design problems. Credits: 4 hrs Lecture/Lab Hours: Lecture: three hours per week. Laboratory: three hours per week. Prerequisite: PHY222 or PHY224; MATH121
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4.00 Credits
Electronic devices used in electronic instruments: transistors, logic gates, and interface circuits. Interface techniques with applications to measurements. Credits: 4 hrs Lecture/Lab Hours: Lecture: three hours per week. Laboratory: three hours per week. Prerequisite: PHY456
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3.00 Credits
An introduction to the kinetic theory of gases and statistical mechanics. For students concentrating in physics and those contemplating advanced study in related fields of science and engineering. Maxwell-Boltzman distribution law, entropy and probability, transport phenomena, quantum statistics, Bose-Einstein and Fermi-Dirac statistics, the connection between statistical mechanics and thermodynamics, the equation of state, the elementary electron theory of metals and statistical methods in nuclear physics. Credits: 3 hrs Prerequisite: PHY224; MATH223
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3.00 Credits
Topics include basic nuclear structure, nuclear decay and radioactivity, nuclear reactions and particle physics. Credits: 3 hrs Prerequisite: PHY370, MATH121
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3.00 Credits
The fundamental ideas of the quantum theory; the dual nature of matter, wave equations and wave packets, observable and linear operators, the application of the Schroedinger and Heisenberg equations to elementary systems, Pauli's theory of electron spin. Credits: 3 hrs Prerequisite: PHY370; MATH223
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1.00 Credits
This special topics course will be used to teach aspects of physics at an advanced level that would not regularly be offered. Credits: 1 hr Prerequisite: see department for prerequisites
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2.00 Credits
This special topics course will be used to teach aspects of physics at an advanced level that would not regularly be offered. Credits: 2 hrs Prerequisite: see department for prerequisites
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3.00 Credits
This special topics course will be used to teach aspects of physics at an advanced level that would not regularly be offered. Credits: 3 hrs Prerequisite: see department for prerequisites
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3.00 Credits
Advanced mathematical topics for the physics student, with applications drawn from the field of physics. Vectors, matrices, tensors, partial differential equations, contour integration, calculus of variations, integral equations and transforms, eigenvalue functions, perturbation and group theory, special functions. Credits: 3 hrs Prerequisite: MATH325; PHY330
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