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Course Criteria
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3.00 Credits
Application of vector analysis and differential equations to the solution of complex engineering problems. Prerequisites & Corequisites: Prerequisite: ME 3600 or equivalent. Credits: 3 hours
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3.00 Credits
Development of finite element method for solution of one-, two-, and three-dimensional problems in heat transfer, fluid flow, structures and elasticity. Prerequisites & Corequisites: Prerequisites: ME 2570, ME 3560, ME 4310, and MATH 3740 or equivalents. Credits: 3 hours
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3.00 Credits
Finite difference methods for initial value and boundary value problems; 2D finite differencing, boundary element methods applications to differential equations of heat transfer, fluid flow, and solid mechanics. Prerequisites & Corequisites: Prerequisite: Consent of instructor. Credits: 3 hours
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3.00 Credits
Introduction to basic concepts of noise control. Nature of sound and its effects on our environment. Indoor and outdoor sound propagation. Noise standards and measurements. Case studies of real-world implementations of noise control engineering. Laboratory demonstrations. Prerequisites & Corequisites: Prerequisites: MATH 3740, ME 2580. Notes: This course meets for 2 lecture hours and 3 lab hours per week. Credits: 3 hours
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3.00 Credits
Basics of experimental techniques and modeling used in industry to study inelastic deformations, fatigue, and fracture of engineering materials and structures. Prerequisites & Corequisites: Prerequisite: ME 3650 or consent of instructor. Credits: 3 hours
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3.00 Credits
Basic equations of compressible flow, isentropic relationships, and normal and oblique shock. Prandtl-Meyer expansion, Fanno Line, and Rayleigh Line flow. Applications to nozzles, diffusers, and supersonic wind tunnels. Linearized flows, method of characteristics. Prerequisites & Corequisites: Prerequisites: ME 4310 and ME 4320. Credits: 3 hours
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3.00 Credits
Topics including the conditions of equilibrium, process and thermodynamic engines, the extremum principle, Maxwell relations, stability of thermodynamic systems, phase transitions, chemical thermodynamics, irreversible thermodynamics, and an introduction to the statistical thermodynamics. Prerequisites & Corequisites: Prerequisites: ME 4310 and ME 4320. Credits: 3 hours
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3.00 Credits
Material selection for resistance to both load and environment. Design parameters for material selection and various metal systems, corrosion, service failures, and mechanical behavior of engineering alloys at high and low temperatures. Prerequisites & Corequisites: Prerequisites: (ME 2500 or AAE 2500) and (ME 3650 or MSE 4570). Credits: 3 hours
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3.00 Credits
Surface chemistry, topographical measurement and description, contact mechanics, wear mechanisms, lubrication and film formation, application to friction and wear situations in machine elements. Prerequisites & Corequisites: Prerequisites: ME 3560, ME 3650. Credits: 3 hours
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3.00 Credits
Fundamentals of fuel cells, working principles and types. Function of main components, basic chemistry and thermodynamics, electrochemistry. Alternative fuels and emerging energy technologies. Fuel cell and hydrogen era. Prerequisites & Corequisites: Prerequisites: (ME 3670 or ME 4320) and ME 3560. Credits: 3 hours Lab Hours: (2-3)
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