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Course Criteria
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0.00 - 3.00 Credits
1st and 2nd Semester and Summer. Lect 3, Lab 0, 3 credits. Transient and steady state behavior of transmission lines; wave guides, antennas, propagation, noise microwave sources, system design. Prerequisites: EENG 0322, EENG 0333, and MATH 0307.
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0.00 - 1.00 Credits
1 st Semester Lect. 1, Lab. 0, 1 credit. This course includes a historical background on the evolution of manned flight vehicles, and an introduction to aerospace science and the engineering profession. Other topics include introductory discussions on concepts of aerodynamics, airplane performance, propulsion, stability and structures.
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0.00 - 3.00 Credits
2 nd Semester. Lect. 3, Lab. 0, 3 credits. This course introduces the concepts of stresses and strain in elastic members under tension, compression, shear, torsion and flexure, also covered are; combined stresses, Mohr's circles, thin pressure vessels, bending moment and shear force diagrams for beams, column buckling, strain energy. Prerequisite: MENG 0211.
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0.00 - 3.00 Credits
1 st Semester, Lect. 3, Lab. 0, 3 credit. This course covers un-accelerated and accelerated flight conditions including range, endurance, turning flight, takeoff and landing and implications on aircraft design. Computer software will be utilized to demonstrate design implications. Prerequisite: AENG 0100, PHYS 0310, Co-requisite: MENG 0211.
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0.00 - 3.00 Credits
1 st Semester. Lect. 3, Lab. 0, 3 credits. Introduction to the mechanics of fluids for aerospace applications, including the properties of fluids, hydrostatics, the equations of motion, dimensional analysis, potential flow, viscosity, boundary layers, and an introduction to aerodynamic forces. Prerequisites: MATH 0209, MATH 0307, MENG 0212.
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2.00 - 3.00 Credits
2 nd Semester. Lect. 1, Lab. 2, 3 credits. Basic theory and principles of engineering and science as applied to measurement of parameters of interest in aerospace studies. Topics of equal importance include: data processing, error evaluation, calibration procedures, design of experiments and report writing. Prerequisites: AENG 0313, EENG 0380, MATH 0507.
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0.00 Credits
1 st Semester. Lect. 3, Lab. 0, credits 3. Introduction to the dynamics of aerospace vehicles capable of attaining orbit and/or space travel. Topics include: descriptions of vehicle motion, Kepler's laws, orbital elements, ballistic trajectories and orbital flight dynamics. Prerequisites: MENG 0212.
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0.00 - 3.00 Credits
2 nd Semester, Lect. 3, Lab. 0, 3 credits. Introduction to aerospace structures and materials, elasticity, torsion, flexural loading, flexural shear and shear flow in thin walled sections. Prerequisite: AENG 0216. Corequisite: AENG 342L.
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0.00 - 3.00 Credits
2 nd Semester. Lect. 3, Lab. 0, 3 credits. Fundamental analysis of the basic equations of fluid mechanics as applied to aerodynamics. Topics covered include: potential flow, predictions of pressure distributions on airfoil surfaces, lift, drag and moment characteristics of airfoils, lift and drag characteristics of aircraft. Prerequisites: AENG 0313, MATH 0307. Corequisite: AENG 344L.
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0.00 - 3.00 Credits
1 st Semester. Lect. 3, Lab. 0, 3 credits. Introduction to the fluid mechanics and thermodynamics required for the analysis and design of aerospace propulsion engines. Topics include: elementary propeller theory, thermodynamic analysis of various types of jet, rocket and other engines in aerospace use, effects of installation, velocity and atmospheric conditions on engine performance, noise, emissions and environmental considerations. Prerequisites: MENG 0311, AENG 0344. Corequisite: AENG 346L.
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