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Course Criteria
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3.00 Credits
Calculus of variations for dynamical systems, definition of the dynamic optimization problem, constraints and Lagrange multipliers, the Pontryagin Maximum Principle, necessary conditions for optimality, the Hamilton-Jacobi-Bellman equation, singular arc problems, computational techniques for solution of the necessary conditions. Offered: jointly with E E 550/M E 550; odd years; A.
Prerequisite:
graduate standing; recommended: A A 548, E E 548, or M E 548
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3.00 Credits
No course description available.
Prerequisite:
Separate File
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3.00 Credits
No course description available.
Prerequisite:
Separate File
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3.00 Credits
Continuous and discrete systems, natural frequencies, and modal analysis; forced vibrations and motion-dependent forces. Structural damping; control augmented structures. Measurements for structural dynamic testing. Offered: odd years; Sp.
Prerequisite:
A A 571 or equivalent
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3.00 Credits
Static and dynamic aeroelasticity, unsteady aerodynamics, aeroservoelastic modeling, and active control. Offered: even years; Sp.
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3.00 Credits
No course description available.
Prerequisite:
Separate File
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3.00 Credits
Discussion of waves, equilibrium and stability, diffusion and resistivity, basic plasma kinetic theory, and wave-particle interactions. Offered: jointly with ESS 576; Sp.
Prerequisite:
either A A 405, ESS 515, or GPHYS 505, or permission of instructor
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3.00 Credits
Review and comparison of single particle and fluid descriptions of plasmas. MDH equilibrium, flux surfaces, and basic toroidal description. Collisional processes including physical and velocity space diffusion. Introduction to island formation, stochasticity, and various plasma instabilities. Offered: even years; W.
Prerequisite:
A A 405 or GPHYS 505
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3.00 Credits
Equilibrium, stability, and confinement. cal transport, collisionless and resistive skin depths. Ideal MHD equations formally derived and properties of plasmas in the ideal limit are studied. Straight and toroidal equilibrium. Linear stability analysis with examples. Taylor minimum energy principle. Offered: even years; Sp.
Prerequisite:
either A A 405, A A 556, A A 557, ESS 576, or GPHYS 537
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1.00 Credits
Current topics in plasma science and controlled fusion with presentations by invited speakers, oncampus speakers, and students. Students expected to give a seminar once or twice a year with instructor reviewing the method of presentation and material used for the presentation. Credit/no credit only. Offered: AWSp.
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