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Course Criteria
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3.00 Credits
Prerequisite: MATH 118. Corequisite: ENGS 217. Fundamental properties of electric circuits. Ohm's law, Kirchoff's laws, mesh and nodal analysis with independent and dependent sources. Superposition, source transformations, Thevenin and Norton equivalency circuits. Transient response of RC, RL, and RLC circuits. Sinusoidal steadystate response and phasor diagrams. Instantaneous power, average power, RMS values and three-phase systems. 3 lecture hours, 1 class hour.
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3.00 Credits
Prerequisite: ENGR 217. Corequisite: ENGS 218. Continuation of ENGR 217. Instantaneous, average, effective and apparent power; single and three-phase connections; Bode diagrams, complex frequency, transforms, and parameters. Trigonometric and complex forms of Fourier series, convolution, and introduction to Fourier transforms, Laplace transform and state variables. 4 lecture hours.
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3.00 Credits
Prerequisite: MATH 119 and PHYS 205 with a C or better grade. Develops an understanding of first law, second law, and some physical properties of thermodynamics, as well as some competence in application of principles to engineering systems. Entropy, reversible and irreversible processes, closed and open systems, properties of pure substances, control volume analysis, gas power cycles, and ideal gas mixtures. 3 lecture hours, 1 class hour.
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3.00 Credits
Prerequisite: Successful completion of or concurrent enrollment in ENGR 218. Introduction to diode, bipolar transistor and FET circuit models for design and analysis of electronic circuits. Single and multistage analysis and design. Introduction to digital circuits. Computer-aided design calculations, amplifier operating point design, frequency response of single and multistage amplifiers. 3 lecture hours.
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3.00 Credits
Corequisite: ENGS 266. An introduction to digital system design and hardware engineering, with an emphasis on practical design techniques and circuit implementation. Topics include Boolean algebra, combinational logic, minimization, gate implementation, electrical characteristics, propagation delay, timing diagrams, signed numbers, arithmetic circuits, flip-flops, Mealy and Moore machines, programmable logic devices, ABEL, and simple computer design. 3 lecture hours.
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3.00 Credits
Prerequisite: PHYS 205 and ENGR 205. Corequisite: ENGS 270. Analysis of stress and strain, axial loading, torsional loading, lexural loading, combined loading, column loading and connections. 3 lecture hours.
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1.00 Credits
Corequisite: ENGR 217. Experimental exercises in lab instrument use. Voltage, current, impedance, frequency, and wave form measurements; frequency and transient response. 3 laboratory hours.
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1.00 Credits
Corequisites: ENGR 218 and 255. Laboratory experiments in the measurement of electronic device characteristics. Design of biasing networks for small-signal amplifiers and switching circuits. 3 laboratory hours.
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1.00 Credits
Corequisite: ENGR 266. Application of design techniques of ENGR 266. Implementation of logic circuits and systems. TTL and PLD packages are utilized. 3 laboratory hours.
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1.00 Credits
Corequisite: ENGR 270. The basic characteristics of structural elements are illustrated through lab experiments. 3 laboratory hours.
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