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Course Criteria
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3.00 Credits
Elements of vibrating systems. Free, forced harmonic and transient vibrations of single-degree-of-freedom systems with and without damping. Vibration isolation and control. Two-degree-of-freedom systems and the dynamic vibration absorber. Application of matrix techniques to multi-degree-of-freedom systems.
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3.00 Credits
Continuation of MENG 434. Practical applications of vibration theory to topics such as: Control and suppression of vibrations in machinery; vibration isolation and damping treatments; dynamic vibration absorbers; balancing of rotating and reciprocating machinery; critical speed evaluation of flexible rotors; ground vehicle response to road profile excitation and evaluation of ride performance; vibration in electronic equipment and prevention of vibration failures; aircraft vibration and flutter; and response of structures to earthquakes.
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3.00 Credits
Advanced topics in conduction, contact resistance, multidimensional transients, periodic heat transfer, non-uniform heat generation, freezing and melting processes, fin heat transfer, and design of shell-and-tube heat exchangers.
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3.00 Credits
Introduction to the techniques used in the analysis and design of heating, ventilating, and air conditioning (HVAC) systems. Topics include the arrangement of typical air conditioning systems (i.e. all air systems, air and water systems, etc.), moist air processes, comfort and health criteria for indoor air quality, heating and cooling loads, piping system design, building air distribution, and operational principles and performance parameters of typical components (i.e., cooling towers, air washers, heating and cooling coils, etc.)
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3.00 Credits
Introduction to the fundamentals of mechanical design and analysis of electronic systems. Topics will include packaging architectures, component and subcomponent design (i.e. chip packaging technologies, printed circuit boards, interconnections and connectors, etc.), thermal management techniques, thermomechanical analysis and design, design for dynamic environments, and design techniques for humid and/or corrosive environments.
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3.00 Credits
Continuation of material presented in MENG 330. Design topics involving mechanical elements such as bolts, spur and helical gears, journal bearings and flexible mechanical elements.
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2.00 Credits
This course presents how to balance design constraints to fit within manufacturing process capabilities. Topics include optimizing the design of single parts, the design of assemblies, and the assembly process. The course also includes designing parts to reduce tolerance stack-ups and creating cost models for parts.
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1.00 Credits
Lab projects include product dissections of commercial products, investigations into process capability for common processes, and modeling student designs.
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3.00 Credits
Principles of feedback control. Mathematical modeling and analysis of dynamic physical elements and systems. Transient and steady-state response of first and second-order systems. Use of Laplace transforms. System response with zeros and additional poles. Transfer functions and block diagrams. Stability criteria and steady-state errors. Root locus and frequency response methods.
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3.00 Credits
Conservation equations, sonic velocity, and Mach number. Variable area adiabatic flow, isentropic flow. Normal and oblique shocks. Fanno and Rayleigh flows. Prandtl-Meyer flow, combined effects.
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