216/EECS 216. Circuit Analysis. Prior or concurrent enrollment in Math. 216. (4). (Excl).
Resistive circuit elements; mesh and node analysis; network theorems; network graphs and independence; energy storage elements; one- and two-time-constant circuits; phasors and a.c. Steady-state analysis; complex frequency and network functions; frequency response and resonance. Lecture and laboratory.
270/EECS 270. Introduction to Logic Design. (4). (Excl).
Binary and non-binary systems, Boolean algebra digital design techniques, logic gates, logic minimization, standard combinational circuits, sequential circuits, flip-flops, systhesis of synchronous sequential circuits, PLA's, ROM's, RAM's, arithmetic circuits, computer-aided design. Laboratory includes hardware design and CAD experiments. [Cost:3] [WL:1]
283/EECS 283. Elementary Programming Concepts. Not intended for CS or Computer Engineering concentrators. (4). (NS).
Introduction to a high level programming language, top-down analysis, and structured programming. Basic searching and sorting techniques. No previous experience in computer or programming is assumed. Students will write and debug several computer programs. [Cost:2] [WL:1]
300/EECS 300/Math. 300. Mathematical Models in System Analysis. Math. 216. A student cannot receive credit for both CS 300 and Math. 448. (3). (Excl).
An introductory course in operational mathematics as embodied in Laplace Transforms, Fourier Series, Fourier Transforms and Complex Variables, with emphasis on their application to the solution of systems of linear differential equations. The response of linear systems to step, impulse and sinusoidal forcing functions. [WL:1]
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