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Course Criteria
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3.00 Credits
This course covers spacecraft attitude dynamics and controls, including spin stabilized, three axis, dual spin modes, and attitude determination techniques. Prerequisite/Restriction: ECE 5310 or MAE 5310 Cross-listed as: ECE 6340.
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3.00 Credits
Students learn applications of spacecraft attitude control concepts including attitude control and determination sensors, actuators, and algorithms. Prerequisites: MAE 6340 or ECE 6340 Also taught as: ECE 6345
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3.00 Credits
Basic laws of fluid motion, Navier Stokes equations, kinematics of the flow field, fundamental exact solutions of viscous flow, and elements of turbulence. Prerequisite: MAE 3420 or CEE 3500.
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3.00 Credits
Topics include experimental design, digital data acquisition, Fourier transforms, uncertainty analysis, writing and presentation, and some specific measurement techniques of interest to mechanical engineers. Prerequisite: MAE 3340.
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3.00 Credits
Derivation of the boundary layer equations. Exact, approximate, and numerical solution techniques. Boundary layers in compressible flow. Separation. Unsteady boundary layers. Stability and transition. Turbulent boundary layers. Integral, differential, and numerical methods for solving problems associated with transfer of heat in a viscous fluid. Prerequisites: MAE 3440, 6410.
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3.00 Credits
Advanced topics in computational fluid dynamics using the finite-volume method, compressible flow algorithms including body-fitted nonorthogonal grids, linear solvers, turbulence modeling, and parallel computing. Includes extensive code development. Prerequisite: MAE 5420 or MAE 6410.
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3.00 Credits
Topics in classical and statistical thermodynamics, including distribution functions, free molecular flow, electron and photon gas modeling, derived properties of solids, and thermodynamic applications in areas of current research interest. Prerequisite/Restriction: MAE 3440
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3.00 Credits
This course covers integral, differential, and numerical methods for solving engineering problems associated with the diffusion of heat in a rigid solid, in addition to radiation theory and applications. Prerequisite/Restriction: MAE 3440.
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3.00 Credits
Fundamentals of turbulent fluid flow, with emphasis on providing student with sufficient physical and mathematical background to critically evaluate current literature and make original research contributions. Topics include stochastic tools, the governing equations, transition to turbulence, isotropic turbulence, measurement techniques, and free and wall bounded turbulent shear flows. Prerequisite/Restriction: MAE 6410 or permission of instructor.
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3.00 Credits
Inviscid, irrotational fluid flow with emphasis on aircraft analysis and design. Exact solutions with complex variables and conformal mapping; perturbation methods; singularity elements and influence coefficients; lifting-line method; numerical vortex lattice method; numerical panel methods; and software design and development. Prerequisite/Restriction: MAE 5500.
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