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Course Criteria
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3.00 Credits
Aircraft control and maneuverability, control response and transfer functions, nonlinear dynamics with gyroscopic and aerodynamic coupling, Euler angle formulations, direction cosine formulation, quaternion formulation, numerical integration methods, software design and development. Prerequisite/Restriction: MAE 5510.
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3.00 Credits
Fundamentals of turbine and rocket propulsion, including nozzle theory and thermodynamic relations, combustion processes, and flight performance. Rocket propulsion topics, including solid, liquid, and hybrid rocket engines; and advanced engine concepts. Turbine engine propulsion systems, including turbojets, turbofans, afterburners, and advanced unducted fan concepts. Prerequisite: MAE 5420.
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3.00 Credits
Advanced topics in astrodynamics to include: general and special perturbations, universal variables, methods of orbit determination, Lambert's theorem, the restricted three-body problem, and space mission planning. Prerequisite: MAE 5560.
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3.00 Credits
Explores advanced structures in modern civil, mechanical, and aerospace systems. Emphasizes concepts through problem solving, and fosters an in-depth understanding of the subject. Provides understanding of the fundamental principles to analyze and design advanced structures. Prerequisite: MAE 6040.
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3.00 Credits
Fundamentals of aircraft and spacecraft navigation systems. Techniques in celestial and inertial navigation. Global Positioning System (GPS) principles. Least squares estimation and Kalman filtering for optimal estimation of stochastic systems. Prerequisite: MAE 5310 or ECE 5310 or equivalent. Also taught as ECE 6560.
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3.00 Credits
This course covers N-dimensional constrained and unconstrained nonlinear parameter and dynamic system optimization. It emphasizes solutions to optimal spacecraft trajectory problems and optimal guidance algorithms. It also covers the Space Shuttle Powered-Explicit-Guidance (PEG). Crosslisted as: ECE 6570 Prerequisite/Restriction: MATH 2210 MATH 2250 or MATH 2270 and MATH 2280 Semester(s) Traditionally Offered: Summer
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3.00 Credits
Analysis of various engineering processes through the development of physically-based mathematical models and associated experimental descriptions. Diffusion mass transfer, heat transfer, and fluid flow. Quantitative analysis and simulation of materials processing. Prerequisite/Restriction: MAE 3420, MAE 3440.
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3.00 Credits
This course covers linear elastic and elastic-plastic fracture mechanics; micro-mechanisms of fracture in metals, polymers, ceramics, composites, and concrete; and failure analysis of engineering. Prerequisite(s): MAE 2160, MAE 3040 Registration Restriction(s): Student must be in the Professional Engineering Program or have graduate standing Repeatable for credit: No Grade Mode: Standard
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1.00 - 3.00 Credits
Independent or group study of engineering problems not covered in regular course offerings. Repeatable for credit.
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3.00 Credits
Individual projects involving the design, development, and/or testing of components, devices, or systems. Formal report required. Pass/Fail only.
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