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Course Criteria
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3.00 Credits
Heating, ventilating and air conditioning applications of thermodynamic and psychometric principles. Calculation of heating and cooling loads based on thermal comfort and design of processes and equipment that maintain desired indoor air quality. PREREQ: ENGR 320. COREQ: ENGR 330.
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3.00 Credits
Multidimensional stress and strain, energy methods, and failure theories. Introduction to plasticity, fatigue, nonlinearity, and stress concentrations. Analysis of thick-walled cylinders, pressure vessels, columns, buckling, plates, beams, and shells using computer methods. PREREQ: ENGR 350.
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3.00 Credits
Modeling and simulation of physical systems. Transfer functions, block diagrams, and signal-flow graphs. Statevariable analysis of linear systems and stability. Steady-state and transient specifications. Root locus technique. Design of feedback control systems. May be taken for ECE or ME credit, but not both. PREREQ: (ECE 225 and ECE 288) or (ENGR 220 and ENGR 240).
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3.00 Credits
Application of advanced mathematics to engineering problems. Laplace and Fourier transforms, linear and nonlinear systems of equations, vector calculus, Greens and Stokes theorems, divergence, gradient, and curl. Numerical methods used for modeling and analysis. PREREQ: MATH 275, MATH 333.
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3.00 Credits
Analysis, synthesis, and simulation techniques to characterize, analyze, and design mechanisms and machines to meet performance and functional criteria. Design projects reinforce concepts and methodologies. Both student-generated code and commercial program use emphasized. PREREQ: ENGR 220, MATH 275, MATH 333, and structured programming.
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3.00 Credits
Approximate and numerical methods for solving systems of linear and nonlinear equations, and ordinary and partial differential equations with engineering applications. Finite difference and finite element techniques; roots, curve fitting, and numerical integration. PREREQ: MATH 333 and structured programming.
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1.00 Credits
Theoretical and practical techniques for designing and conducting engineering experiments. Student projects emphasize design of experiments, data acquisition, data analysis, and error analysis. Emphasis on technical communication. PREREQ: ME 320, ME 352, ENGR 240, and MATH 360.
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3.00 Credits
Advanced topics and applications of thermodynamics include power and refrigeration cycles, combustion, mixed gas properties, chemical equilibrium, and psychrometric applications. PREREQ: ENGR 320 and MATH 275.
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3.00 Credits
Applied thermodynamics, fluid mechanics, and heat transfer in design of HVAC systems, thermal power plants and engines, related piping or ducting systems. Design for system optimization, simulation, and economics. PREREQ: ENGR 330 and ME 320.
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3.00 Credits
Advanced fluid mechanics theory and applications in potential flow, viscous flow, boundary layer theory, turbulent flow and turbulence modeling, compressible flow, turbomachinery, and computational fluid dynamics. PREREQ: ENGR 330, MATH 275, MATH 333.
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