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Course Criteria
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3.00 Credits
Prerequisites: CHM 111, MAT 330. Mechanical behavior of materials, atomic concepts, properties of crystalline and non crystalline solids. Materials in design.
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1.00 Credits
Prerequisites: MAE 330, MAE 302L. Corequisites: MAE 430, MAE 460. Design of experiments. Multiple experimental projects focused on analysis of materials and materials processing, thermal systems, and/or mechanical systems.
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3.00 Credits
Prerequisites: MAE 310, MAE 320. Introduction to the theory of finite element analysis. Solutions for stress analysis, dynamic analysis, and heat transfer in two dimensions. Computer implementation. Modeling and applications.
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3.00 Credits
Prerequisites: C or better in EGR 236, MAE 310. Three dimensional kinematics of rigid bodies. Three dimensional kinetics of rigid bodies: force and acceleration. Vibrations. Design of systems to produce different types of motion.
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3.00 Credits
Prerequisites: C or better in EGR 236, MAT 330. Elements of vibrating systems. One degree of freedom systems: free and forced, and damped and undamped. Multi-degree of freedom systems: free and forced, and damped and undamped. Vibration of continuous systems. Design of vibration systems.
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3.00 Credits
Prerequisites: MAE 310, MAE 320. Three dimensional stress at a point, compatibility equations, strain energy, plane stress, plane strain, mechanical behavior of materials, beam bending, torsion of prismatic bars, elastic foundations, elastic stability, energy methods.
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3.00 Credits
Prerequisites: MAT 330, C or better in EGR 235, MAE 310, MAE 330. Conduction, convection, and radiation and their use in engineering applications. Steady and transient heat transfer; analytical, graphical, and numerical solutions. Normalization of the boundary layer equations. Convective correlations for external and internal flows. Introduction to radiation.
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3.00 Credits
Prerequisites: MAE 330, MAE 335, MAE 430. Introduction to heat exchangers and heat exchanger design. Design and optimization of thermal systems, including modeling, simulation, and economics. Component design. Examples from power generation systems, heat exchanger/ recovery, HVAC.
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3.00 Credits
Prerequisites: MAE 330, MAE 335. Introduction to the theory, analysis, and design of turbomachinery. Incompressible flow devices: pumps, fans, and hydraulic turbines. Gas turbine engines for aircraft and industrial power generation. Radial and axial flow configurations.
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3.00 Credits
Prerequisite: MAE 335. Theory, design, and operation of spark-ignition and compression-ignition engines. Combustion analysis, efficiencies, and performance. Knock phenomena, exhaust-gas analysis, and air pollution.
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