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Course Criteria
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0.00 Credits
Problem-solving recitation section for Engineering Electromagnetics. Corequisites: PHYS 2127 and PHYS 2327. (1-0) Y
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1.00 - 3.00 Credits
Laboratory course to accompany PHYS 2325. Personal computer-based data presentation and curve fitting. Basic measurement concepts such as experimental uncertainty, mean, standard deviation, standard error, and error propagation will be covered. Corequisite: PHYS 2325 or PHYS 2421. (0-3) Y
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1.00 - 3.00 Credits
Laboratory course to accompany PHYS 2326. Experiments investigate Coulomb's Law, electric fields, Ohm's and Kirchoff's laws, RC circuits, magnetic forces between conductors, motors antransformers. Corequisite: PHYS 2326 or PHYS 2422. (0-3) Y
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1.00 - 3.00 Credits
Laboratory exercises designed to provide hands-on experiences that will reinforce the concepts presented in PHYS 2327. Weekly laboratory assignments will also provide an introduction to the correct use of basic laboratory test and measurement equipment, including power supplied, multimeters, oscilloscopes, and signal generators. Corequisite: PHYS 2327. (0-3) Y
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3.00 Credits
Topics include the fundamentals of geometric optics, interference, diffraction, special relativity and structure of the atom, nuclear physics, radioactivity and elementary particles. (3-0) Y
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3.00 Credits
Calculus based. Basic physics including a study of space and time, kinematics, forces, energy and momentum, conservation laws, rotational motion, torques, and harmonic oscillation. Two lectures per week. Prerequisite: MATH 2417. Corequisites: PHYS 2025 and PHYS 2125. (3-0) Y
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3.00 Credits
Continuation of PHYS 2325. Topics include electrostatics and electromagnetics, electric field and potential, electric currents, magnetic fields, laws of Coulomb, Ampere, and Faraday, Maxwell's theory of wave propagation. Two lectures per week. Prerequisites: PHYS 2325 and MATH 2419. Corequisites: PHYS 2026 and PHYS 2126. (3-0) Y
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3.00 Credits
An introduction to electromagnetism with emphasis on engineering applications, including the relationship between Maxwell's equations and the rules of AC and DC planar circuit analysis. Application of Maxwell's equations to passive circuit elements, RL, RC, and RLC circuits, and propagation effects relevant to signal transmission in free space and on integrated circuit boards. Prerequisites: PHYS 2325 and MATH 2419. Corequisites: PHYS 2027 and PHYS 2127. (3-0) Y
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4.00 Credits
(4 semester hours) Calculus-based physics. This class is a more rigorous version of PHYS 2325 with additional topics in thermal physics. Derivations are more general and rely more heavily on calculus and the use of vectors. More challenging problems and applications. Two lectures plus a required recitation session per week. Prerequisite: MATH 2417. Corequisite: PHYS 2125. (4-0) Y
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4.00 Credits
(4 semester hours) Calculus-based basic physics. This class is a more rigorous version of PHYS 2326. Derivations are more general and rely more heavily on multi-dimensional calculus concepts such as divergence, gradient, curl, and the theorems of Green, Stokes and Gauss. More challenging problems and applications. Two lectures plus a required recitation session per week. Prerequisites: PHYS 2325 or PHYS 2421, and MATH 2419. Corequisites: MATH 2451 and PHYS 2126 or PHYS 2127. (4-0) Y
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