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Course Criteria
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4.00 Credits
Introduction to computer based data acquisition, including D to A and A to D conversion, real time operating systems, digital filtering, sensor selection and sensor interface design. Three lectures, one laboratory per week and a final design project. Pre or co-requisite: ECEGR 315. Prerequisite: MEGR 281. (spring)
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5.00 Credits
Thermal properties of ideal and real gases, liquids, vapors and mixtures. Conservation of energy. Second law. Conversion of thermal energy to work. Power, efficiency, cycles, airconditioning, compressible gas flow. Four lectures and one laboratory per week. (fall)
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4.00 Credits
Continuation of MEGR 321. Thermodynamics applied to ideal and real cycles, internal and external combustion engines, fans, blowers, compressors, nozzles, refrigeration, airconditioning. Second-law analysis. Design problem. Four lectures per week. Prerequisite: MEGR 321. (winter)
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5.00 Credits
Heat transfer-conduction, convection and radiation. Conduction in one and two dimensions, steady state and transient. Forced and natural convection with phase change. Radiation between two or three black and gray bodies. Heat exchangers. Design problem. Four lectures and one laboratory per week. Prerequisite: MEGR 321. Pre- or co-requisite: CEEGR 331. (spring)
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3.00 Credits
Overview of manufacturing processes including casting, forming, machining and welding; physics governing processes, the associated process parameters and their influences. Two lectures and one laboratory or field trip per week. Prerequisite: MEGR 350.
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5.00 Credits
Atomic structure. Metallic bond. Structure of metals and non-metals. Equilibrium diagrams. Time-dependent transformations. Relation of structure to properties. Elastic and plastic deformation. Four lectures and one laboratory per week. (fall)
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5.00 Credits
Advanced strength of materials including combined loading, beams, columns, connection forces and stress concentrations. Introduction to statistics and reliability. Introduction to finite element analysis. Material failure including static failure theories, fracture mechanics and fatigue. Design problem. Four lectures and one laboratory per week. Prerequisite: CEEGR 221. (winter)
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4.00 Credits
Continuation of MEGR 371. Fasteners, welds, springs, bearings, gears, shafts, lubrication, clutches and brakes. Design problem. Four lectures per week. Prerequisite: MEGR 371. (spring)
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1.00 - 5.00 Credits
Special Topics
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1.00 - 5.00 Credits
Directed Study
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