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AE 6060: Aeroacoustics
3.00 Credits
Georgia Institute of Technology-Main Campus
Lighthill's theory of aerodynamic noise and extensions, flow/acoustic interactions, feedback phenomenon, supersonic jet noise, aeroacoustics of ducts, propeller noise, helicopter noise, sonic boom.
Prerequisite:
Undergraduate Semester level AE 3021 Minimum Grade of D
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AE 6060 - Aeroacoustics
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AE 6070: Rotary Wing Aerodynamics
3.00 Credits
Georgia Institute of Technology-Main Campus
Vortex wake modeling; analytical inflow theories; modern computational methods for rotary wing aerodynamic analysis; aerodynamic noise.
Prerequisite:
Undergraduate Semester level AE 3021 Minimum Grade of D
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AE 6070 - Rotary Wing Aerodynamics
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AE 6080: Dynamics of Turbulence
3.00 Credits
Georgia Institute of Technology-Main Campus
Fundamental physics of turbulent flows. Vorticity dynamics, Kolmogorov similarity hypotheses and nonlinear interactions. Mixing and dispersion. Direct and large-eddy simulations, Reynolds stress modeling. Advanced topics.
Prerequisite:
Graduate Semester level AE 6012 Minimum Grade of D
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AE 6080 - Dynamics of Turbulence
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AE 6100: Structural Stability I
3.00 Credits
Georgia Institute of Technology-Main Campus
Stability of elastic systems under quasi-static loads. Classical, kinetic, and potential energy approaches through rigid member models. Buckling of elastic bars and frames. Energy methods.
Prerequisite:
Undergraduate Semester level AE 3122 Minimum Grade of D
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AE 6100 - Structural Stability I
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AE 6101: Structural Stability II
3.00 Credits
Georgia Institute of Technology-Main Campus
Buckling of beams on elastic foundations, rings and arches; elasticity theory; torsional buckling of shafts, buckling of plates, circular cylindrical shells, rotating beams, nonconservative problems.
Prerequisite:
Graduate Semester level AE 6100 Minimum Grade of D
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AE 6101 - Structural Stability II
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AE 6104: Computational Mechanics
3.00 Credits
Georgia Institute of Technology-Main Campus
Development of finite element methods for linear, static structural analysis. The basic tools of the finite element method. The formulation of various structural elements.
Prerequisite:
Graduate Semester level AE 6106 Minimum Grade of D
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AE 6104 - Computational Mechanics
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AE 6106: Analysis-Aero Structures
3.00 Credits
Georgia Institute of Technology-Main Campus
This course focuses on the analysis of advanced aerospace structures. Beam theory is reviewed, plate theory is introduced. Classical and energy solutions are presented.
Prerequisite:
Undergraduate Semester level AE 3122 Minimum Grade of D
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AE 6106 - Analysis-Aero Structures
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AE 6107: Aerol Structural Elements
3.00 Credits
Georgia Institute of Technology-Main Campus
This course focuses on the analysis of advanced aerospace structures. Beam theory is reviewed. Examples of nonlinear behavior of materials are discussed. Plate theory is introduced; classical and energy solution methods are studied.
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AE 6107 - Aerol Structural Elements
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AE 6111: Elasticity
3.00 Credits
Georgia Institute of Technology-Main Campus
Stresses and deformations in continuum media. Stress and strain measures used in nonlinear elasticity. Equilibrium equations and energy principles. Nonlinear beam, plate, and shell applications.
Prerequisite:
Graduate Semester level AE 6769 Minimum Grade of D or Graduate Semester level ME 6769 Minimum Grade of D
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AE 6111 - Elasticity
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AE 6112: Inelastic Response
3.00 Credits
Georgia Institute of Technology-Main Campus
Fundamentals of inelastic response relevant to aerospace and composite structures. Viscoelastic constitutive relations. Isothermal boundary value problems. Foundations of plasticity theory. Solution of plastic-elastic problems.
Prerequisite:
Graduate Semester level AE 6769 Minimum Grade of D or Graduate Semester level ME 6769 Minimum Grade of D
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AE 6112 - Inelastic Response
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