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Course Criteria
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3.00 Credits
Stress and strain, properties of materials, axially-loaded members, stresses and deformations of beams, torsion, combined loading and principal stresses, elastic curves, superposition, design of beams and connections, continuous beams, and columns. Class 3. Prerequisites: COSC 1303 and MEGR 2013. (Spring)
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3.00 Credits
Graphical and analytical solutions for velocity and acceleration of mechanisms, synthesis of mechanisms, dynamic analysis of mechanisms and design of cams, gears, and gear trains. Class 3. Prerequisites: COSC 1303, MATH 2023, and MEGR 2023. (Spring)
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3.00 Credits
Fluid statics and dynamics, flow of an ideal fluid, boundary layer, flow of real fluids through pipes and ducts, flow around immersed bodies, and analysis and design of hydraulic systems. Class 3. Prerequisites: COSC 1303, MATH 2023, and MEGR 2023. (Fall)
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3.00 Credits
Properties of pure substances, heat and work, first and second laws of thermodynamics, entropy, ideal gases, gas-vapor mixtures, and availability. Class 3. Prerequisites: CHEM 1113, COSC 1303, and MEGR 2013. Corequisite: MEGR 2023.
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3.00 Credits
Design and implementation of experiments in mechanical engineering. Application of experiment design techniques, including uncertainty and sensitivity analysis to a variety of mechanical systems. Formal report writing is emphasized. Class 1. Lab 3. Prerequisite: MEGR 3123. (Spring)
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3.00 Credits
Vibration of single degree of freedom systems, natural and forced motions, and dynamic loading; multidegree of freedom systems and approximate methods; vibration of elastic bodies. Applications include packaging, fatigue, critical speed determination, and vibration suppression. Class 3. Prerequisites: MATH 2203, MEGR 2023, and MEGR 3323. (Fall)
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3.00 Credits
Application of the principles of statics and mechanics of materials to the design of machine elements. Topics include stress and deformation, finite element method, failure criteria in yielding, fatigue and buckling, statistical considerations, and selection of shafts, bearings, and gears. Class 3. Prerequisites: ENGR 1812 and MEGR 3323. (Fall)
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3.00 Credits
Gas dynamics with applications to inlets, axial compressors, nozzles, and the preliminary design of a gas turbine power plant. This design project is presented in a formal engineering report. Class 3. Prerequisites: MEGR 3513 and MEGR 3713. (On Demand)
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3.00 Credits
A continuation of Thermodynamics including power and refrigeration cycles, thermodynamic relations, combustion processes, and fuel characteristics. Applications involving studies of compressors, turbines, heat engines, and refrigeration systems. Class 3. Prerequisite: MEGR 3713. (On Demand)
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3.00 Credits
Principles of conduction, convection, and radiation heat transfer, transient heat flow, condensation and boiling, and heat exchangers. Class 3. Prerequisites: MATH 2203 and MEGR 3513. Corequisite: MEGR 3713. (Spring)
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