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Course Criteria
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3.00 Credits
Laboratory exploration of semiconductor devices, discrete and integrated amplifiers; feedback; microcomputer systems including input/output, assembly language programming and interrupt processing. Pre/Co-Requisites: EGR 392, 396.
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3.00 Credits
Project research under guidance of a faculty advisor to focus on a topic of current interest. Self-guided readings, analysis, computer simulations and/or experimental techniques. Prerequisite: Permission of instructor.
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3.00 Credits
Introduction to concepts such as natural frequency, damping, resonance. Free and forced vibrations of undamped and damped, single-degree of freedom, multi-degree of freedom systems. Prerequisites: EGR 253, MTH 232.
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3.00 Credits
Continuation of engineering thermodynamics and fundamentals of heat transfer. Topics covered include combustion and gas mixing, steady state and transient heat conduction, convection, and radiation. Prerequisites: EGR 356, 358; MTH 233
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3.00 Credits
Theory and application of mechanical measurements, instrumentation, and computer-based data acquisition. Prerequisites: EGR 290, EGR 355, EGR 360; STA 382.
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3.00 Credits
Theories of static and dynamic failure, fatigue design, and design of mechanical elements such as gears, shafts, bearings, fasteners, welded joints, and other mechanical elements. Prerequisites: EGR 255, EGR 355, EGR 359.
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3.00 Credits
Experimental skills and measurement techniques are reinforced in the areas of fluid flow, thermodynamics, and heat transfer using modern sensors, instrumentation, and data acquisition systems. Prerequisite: EGR 358 Pre/Co-Requisite: EGR 456.
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3.00 Credits
Introduction to composite material mechanics with emphasis on selection, analysis, and use. Stiffness and strength theories for uniaxial and multidirectional materials, with a macromechanical emphasis. Prerequisites: EGR 255, 355; MTH 232.
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3.00 Credits
Mathematical modeling and formulation techniques of finite element equations. Solid modeling and meshing. Solution strategies with applications in solid mechanics, fluid flow, and heat transfer. Prerequisites: EGR 255, 355; MTH 232.
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3.00 Credits
Stress and strain in three dimensions, constitutive laws, failure theories. Beams on elastic foundations, curved bars, inelastic behavior, instability, plates and shells, energy methods. Prerequisites: EGR 255, 355; MTH 233.
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