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Course Criteria
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3.00 Credits
Credit Hours: 3.00. Basic concepts of analytical mechanics, calculus of variations, Hamilton's equations, Hamilton-Jacobi theory, canonical transformations. Offered in alternate years. Prerequisite: AAE 50700. Typically offered Spring. 3.000 Credit Hours Levels: Graduate, Indiana College Network, Professional, Undergraduate Schedule Types: Distance Learning, Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department
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3.00 Credits
Credit Hours: 3.00. Kinetic theory of gases. Conservation equations and transport properties. Introduction to turbulence. Introduction to advanced theory or inviscid compressible flow. Shock waves-causes and properties. Applications. Prerequisite: AAE 51100; AAE 60300 recommended as concurrent prerequisite. Typically offered Fall. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department
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3.00 Credits
Credit Hours: 3.00. Compressible, laminar boundary layer theory; Buseman and Crocco integrals; skin friction and heat transfer. Introduction to turbulent boundary layers and transition phenomena. Advanced boundary layer theory; the method of inner and outer expansions. Boundary layers with chemical reaction; applications to hypersonic flow and combustion. Prerequisite: AAE 51100. Typically offered Spring. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department
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3.00 Credits
Credit Hours: 3.00. Subsonic, supersonic, and hypersonic perturbation theory applied to wings and bodies employing techniques of matched asymptotic expansions. Finite element, influence coefficient methods. Supersonic area rule. Sonic boom theory. The problem of design and the role of the computer. Prerequisite: AAE 51100. Typically offered Fall. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department
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3.00 Credits
Credit Hours: 3.00. (ME 61500) Quantitative measures of sound (Decibel) scales, spectra, energetics of acoustic motions, and measurement techniques). The wave theory of sound (basic equations and properties, sound propagation in homogeneous and inhomogeneous media, one-, two-, and three-dimensional sound fields, and distributed sources). Effects of source movement. Aerodynamic noise generation-acoustic analogy (Lighthill's equation and Ffowcs Williams-Hawkins equation). Introduction to Computational Aeroacoustics (CAA). Noise from turbulent shear flows (jet noise, cavity noise, and noise from flow over objects). Noise from turbomachinery, propellers, and rotors. The distance offering of this course originates from the West Lafayette campus, is offered through streaming video via ProEd, and may be made available at the Calumet campus. Prerequisite: AAE 51100 or ME 50900 or 51300. Typically offered Fall. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department
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3.00 Credits
Credit Hours: 3.00. Instability mechanisms, such as Kelvin-Helmholtz, Tollmien-Schlichting, Gortler, and crossflow. Secondary instabilities. Nonlinear and nonparallel effects; the Parabolized Stability Equations; receptivity; transition prediction. Effects of compressibility, heating, roughness, turbulence, noise, curvature, etc. Turbulent spots and the extent of transitional flow. Prerequisite: AAE 51100. Typically offered Fall. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department
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3.00 Credits
Credit Hours: 3.00. Physical description of turbulence. Reynolds averaged equations. Scaling of basic turbulent flows. Homogeneous turbulence, spectra and two-point correlations. Hierarchy of turbulence models, including zero-, one-, and two-equation models, Reynolds stress models, large eddy simulations, and direct numerical simulations. Additional topics, such as compressibility effects on turbulence and probability density function methods, as time allows. Prerequisite: AAE 51100. Typically offered Spring. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department
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3.00 Credits
Credit Hours: 3.00. Principles and applications of advanced chemical and physical propulsion, with a strong emphasis on fundamentals of applied physical chemistry, classical physics, and modern physics. In situ propellant variants first as applied to momentum transfer devices, and subsequently as applied to field effect devices, with appropriate basis changes. Space-time and alternate constructs enabling virtual faster-than-light travel, and the consequences derived. Prerequisite: AAE 37200 or 43900 or 53900. Typically offered Spring. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department
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3.00 Credits
Credit Hours: 3.00. Both classical and numerical analyses regarding the stability of free-surface flows. Classical droplet and liquid jet analyses of Rayleigh, Weber, and Taylor. Kelvin-Helmholtz and Taylor instabilities associated with planar flows. Numerical treatments of free-surface problems using boundary element methods (BEM's). General introduction on the use of weighted residuals and Green's functions. Axisymmetric and two-dimensional formulations discussed in detail. Prerequisite: AAE 51100. Typically offered Fall. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department
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3.00 Credits
Credit Hours: 3.00. Discussion of more advanced concepts in astrodynamics. Includes fundamental theories from celestial mechanics, as well as trajectory determination and perturbation analysis with application to the motion of Earth-orbiting and interplanetary spacecraft. Assumes experience with the two-body problem. Offered in alternate years. Prerequisite: AAE 50700, 53200. Typically offered Fall. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department
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