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Course Criteria
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3.00 Credits
Formulation and solution of differential equations typical to engineering. Emphasis will be placed on classical solution techniques of ordinary differential equations and Laplace transforms. Three lecture hours. Prereq: MATH 252.
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3.00 Credits
Classification of signals and systems, convolution representation of systems, response of linear systems to periodic and finite-energy signals, system modeling by differential equations, Fourier series and transforms, frequency domain analysis of systems. Three lecture hours. Prereq: ENGR 232 and 315 or MATH 330.
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3.00 Credits
Introduction to experimental methods, design of experiments and analysis and interpretation of experimental data. Topics include accuracy and precision, Fourier series and FFT, expected time response of zeroth-order, first-order and secondorder measurement systems, applied statistics and uncertainty analysis, analog and digital signals and AD/DA conversion and introduction to basic transducers and instruments for measuring voltage, current, temperature, pressure, flow and strain. Two lecture hours and one three-hour lab. Prereq: ENGR 232. Coreq: ENGR 311 and 315.
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3.00 Credits
Basic electronic device concepts including diodes, field transistors, bipolar junction transistors; design and analysis of diode switching and rectifier circuits; single and multistage transistor amplifiers biasing; frequency response, output stage and power amplifiers; operational amplifier applications; electronic simulation using software. Three lecture hours. Prereq: ENGR 231, 232, and 233.
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3.00 Credits
Transient analysis, two-port networks, AC power analysis, three-phase circuits, magnetically coupled circuits, frequency response and active filters, Laplace and Fourier transform analysis of circuits. Three lecture hours. Prereq: ENGR 232 and 233.
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1.00 Credits
Lab methods, experiments and design approaches that illustrate and apply semiconductor electronics and linear circuit topics covered in ENGR 331 and ENGR 332. One three-hour lab. Prereq: ENGR 331. Coreq: ENGR 332.
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3.00 Credits
Fundamentals of engineering thermodynamics. The phases of a pure substance and their thermodynamic properties. The concept of work and heat, conservation of mass, conservation of energy, entropy and the second law of thermodynamics using closed system and control volume analyses. Three lecture hours. Prereq: PHYS 220. Coreq: MATH 320.
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3.00 Credits
Fluid properties and behavior, fluid statics and dynamics of ideal and real fluids. Continuity, momentum, energy equations for control volume analyses. Laminar and turbulent incompressible flows. Pipe flows, open channel flow, lift and drag calculations. Three lecture hours. Prereq: ENGR 241 and 340.
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3.00 Credits
Engineering surveying measurements, methods and computations. Mensuration, leveling, traversing, topographic mapping. Construction surveys. Two lecture hours and one three-hour lab. Prereq: AGET 220 or instructor's approval. Coreq: MATH 160 or 251.
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4.00 Credits
Analysis of statically determinate and indeterminate structural systems for loads and deformations. Analysis of continuous beams, trusses, floor systems and frames. Gravity, live, wind and earthquake loads. Deformations by the elastic curve and by energy methods. Indeterminate analysis using force, displacement and approximate methods. Introduction to computer analysis. Four lecture hours. Prereq: ENGR 220.
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