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Course Criteria
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3.00 Credits
Fundamentals of heat convection and radiation, scaling and heat transfer analysis in external and internal flows, turbulent heat transfer, thermal radiation properties of ideal and real surfaces, radiative transfer in black and gray enclosures, introduction to radiative transfer with participating media. (Every spring)
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3.00 Credits
Derivation of governing equations of mass, momentum, and energy for a viscous, compressible fluid; general survey of vortex dynamics, potential flow, viscous flow, and compressible flow.
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3.00 Credits
Thermodynamics and chemical kinetics of combustion reactions, modeling of reacting fluid mechanical systems, subsonic and supersonic combustion,detailed and on-step kinetics, ignition theory, asymptotic and numerical techniques for modeling combustion systsms.
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3.00 Credits
This course will cover the fundamentals of gaseous ionization and gas discharges including basic ionization phenomena from breakdown to plasma formation and basic plasma properties. The course will focus on low-temperature, non-equilibrium plasma generation (glow discharges, corona discharges, dielectric barrier discharges) and discuss new applications and directions including microplasma generation.
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3.00 Credits
The course concentrates on describing the hardware used in modern turbofan engines and presents the detailed analysis of these components. In particular, the course covers the analysis of inlets, fans, compressors, combustors, turbines, afterburners and nozzles. In addition to the analysis, the course introduces design guidelines used by industry. This course describes why, for example, the swirl pattern in fans and compressors are the way they are by design. Most of the relevant concepts, terms and associated analysis related to turbine engine design are introduced.
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3.00 Credits
A graduate level course that addresses various topics related to aerodynamics with application to surface or flight vehicles.
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3.00 Credits
The course covers fundamental principles and techniques in stress analysis of trusses, beams, rigid frames, and thin-walled structures. Emphasis is placed on energy methods associated with calculus of variations.
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3.00 Credits
A graduate course dealing with the application of engineering analysis to manufacturing systems and advanced manufacturing topics such as MEMS manufacture and computer integrated manufacturing.
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3.00 Credits
A first-year graduate course that introduces the subject of the mechanics of surfaces in contact, with emphasis on the fundamental analysis of surface topography, contact mechanics, friction and frictional heating and wear.
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3.00 Credits
Finite element methods for static and dynamic analysis of structural and continuum systems. Displacement approach for two- and three-dimensional solids along with beams, plates and shells. Material and geometric nonlinearities. (As needed)
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