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Course Criteria
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3.00 Credits
Credit Hours: 3.00. Incompressible airfoil and lifting line theory. Steady and unsteady, one-dimensional, linear and nonlinear flows. Normal shock waves. Steady, supersonic, two-dimensional linear and nonlinear flows. Oblique shock waves. Perturbation theory for wings and bodies. Design applications. Typically offered Fall Spring. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department Course Attributes: Upper Division
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1.00 Credits
Credit Hours: 1.00. A laboratory course designed to illustrate various aerodynamic phenomena. Airfoil pressure distribution. Finite wing lift, drag, and moment. Supersonic flow around bodies. Shock waves. Typically offered Fall Spring. 0.000 OR 1.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Laboratory, Laboratory Preparation School of Aero and Astro Engr College Aeronautics & Astronautics Department Course Attributes: Upper Division
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3.00 Credits
Credit Hours: 3.00. Kinematics and kinetics of particles and rigid bodies. Topics include a particle in orbit, systems of particles, vibrations, Euler's equations of motion, Eulerian angles, and aerospace vehicle dynamics. Typically offered Fall Spring. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department Course Attributes: Upper Division
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0.00 Credits
Credit Hours: 0.00. Practice in industry and comprehensive written reports of this practice. For cooperative program students only. Typically offered Fall Spring Summer. 0.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Experiential School of Aero and Astro Engr College Aeronautics & Astronautics Department Course Attributes: Coop, Full-Time Privileges, Upper Division
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0.00 Credits
Credit Hours: 0.00. Practice in industry and comprehensive written reports of this practice. For cooperative program students only. Typically offered Fall Spring Summer. 0.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Experiential School of Aero and Astro Engr College Aeronautics & Astronautics Department Course Attributes: Coop, Full-Time Privileges, Upper Division
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3.00 Credits
Credit Hours: 3.00. Properties of wing and fuselage sections. Beam-column moments. Torsion of thin-walled and skin-stringer multiple-cell sections. Nonsymmetrical bending of skin-stringer wing sections. Flexural shear in open and closed thin-walled and skin-stringer sections. Loads and stresses in the rib system. Cutouts and shear lag. Modified beam theory for wing and fuselage design. Deflection by energy method. Introduction to composite structures. Typically offered Fall Spring. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department Course Attributes: Upper Division
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1.00 Credits
Credit Hours: 1.00. Location of shear center. Torsion of thin-walled open and closed sections. Torsion of multiple-cell, thin-walled section. Nonsymmetrical bending of skin-stringer cross section. Shear lag effect. Bending of composite beam. Typically offered Fall Spring. 0.000 OR 1.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Individual Study, Laboratory, Laboratory Preparation School of Aero and Astro Engr College Aeronautics & Astronautics Department Course Attributes: ID Engineering Lab Courses, Upper Division
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3.00 Credits
Credit Hours: 3.00. Events, sample space, probability, conditional probability, independence, random variables. Probability mass functions, density functions, and cumulative distribution functions. Derived probability density functions. Bernoulli, Poisson, and normal processes. Applications to engineering problems. Some fundamental limit theorems. Typically offered Fall Spring. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department Course Attributes: Upper Division
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3.00 Credits
Credit Hours: 3.00. Modeling and analysis of dynamical systems with aerospace applications. Laplace transforms, transfer functions, block diagrams. Transient and steady-state response of dynamical systems. Root Locus, Bode, Nyquist methods for control systems analysis. Introduction to controller design. Typically offered Fall Spring. 3.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Lecture School of Aero and Astro Engr College Aeronautics & Astronautics Department Course Attributes: Upper Division
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1.00 Credits
Credit Hours: 1.00. Enhance student awareness of control systems by providing hands-on experience using dynamic systems representative of air and space vehicles. Design of a control system from start to finish by mapping requirements into control solutions through the process of modeling, identification, and controller design (PID and Lead-Lag). Typically offered Fall Spring. 0.000 OR 1.000 Credit Hours Levels: Graduate, Professional, Undergraduate Schedule Types: Distance Learning, Laboratory, Laboratory Preparation School of Aero and Astro Engr College Aeronautics & Astronautics Department Course Attributes: Upper Division
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