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EAD 90C: Research Group Conference for Lower Division Students
1.00 Credits
University of California-Davis
Discussion-1 hour. Prerequisite: lower division standing; consent of instructor. May be repeated for credit. (P/NP grading only.)-I, II, III. (I, II, III.)
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EAD 90C - Research Group Conference for Lower Division Students
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EAD 98: Directed Group Study
1.00 - 5.00 Credits
University of California-Davis
Prerequisite: consent of instructor and lower division standing. (P/NP grading only.)
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EAD 98 - Directed Group Study
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EAD 99: Special Study for Lower Division Students
1.00 - 5.00 Credits
University of California-Davis
Prerequisite: consent of instructor. (P/NP grading only.)
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EAD 99 - Special Study for Lower Division Students
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EAE 1: Introduction to Aerospace Science Engineering
1.00 Credits
University of California-Davis
Lecture-1 hour. Description of the field of aerospace engineering with examples from industry, government, and research. Aerospace engineering principles, ethics, and responsibilities. (P/NP grading only.)-I. (I.)
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EAE 1 - Introduction to Aerospace Science Engineering
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EAE 126: Theoretical and Computational Aerodynamics
4.00 Credits
University of California-Davis
Lecture-3 hours; discussion-1 hour. Prerequisite:Mechanical Engineering 106, Engineering 180, Applied Science Engineering 115, or Mathematics 128C. Development of general equations of fluid motion. Study of flow field kinematics and dynamics. Flow about a body. Thin airfoil theory. Viscous effects. Applications of numerical methods to wing analysis and design.-III. (III.) Hafez
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EAE 126 - Theoretical and Computational Aerodynamics
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EAE 127: Applied Aircraft Aerodynamics
4.00 Credits
University of California-Davis
Lecture-3 hours; discussion-1 hour. Prerequisite:course 126. Experimental characteristics of wing sections. High-lift devices. Lift and drag at high Mach numbers. Drag aerodynamics. Total aircraft drag estimation. Aerodynamic design procedures.- I. (I.) Chattot
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EAE 127 - Applied Aircraft Aerodynamics
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EAE 129: Stability and Control of Aerospace Vehicles
4.00 Credits
University of California-Davis
Lecture-3 hours; discussion-1 hour. Prerequisite:Engineering 102. Aircraft and spacecraft stability and control. Derivation of fundamental equations of motion for aircraft/spacecraft. Specialization of equations for aircraft. Fundamentals of feedback. Aircraft flight control systems. Specialization of equations of motion for orbiting spacecraft. Spacecraft attitude control systems.-II. (II.) Hess
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EAE 129 - Stability and Control of Aerospace Vehicles
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EAE 130A: Aircraft Performance and Design
4.00 Credits
University of California-Davis
Lecture-2 hours; discussion-1 hour; laboratory-hours. Prerequisite: course 127. Aircraft design including aerodynamics, performance analysis, weight estimation, and stability and control.-II. (II.) van Dam
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EAE 130A - Aircraft Performance and Design
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EAE 130B: Aircraft Performance and Design
4.00 Credits
University of California-Davis
Lecture-2 hours; discussion-1 hour; laboratory-hours. Prerequisite: course 130A. Aircraft design including refinement and iteration of initial design; cost analysis, detailed design, and analysis of aircraft structure; propulsion system; aerodynamics, stability, and control/handling qualities; or manufacturing.-III. (III.) van Dam
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EAE 130B - Aircraft Performance and Design
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EAE 133: Finite Element Methods in Structures
4.00 Credits
University of California-Davis
Lecture-3 hours; laboratory-3 hours. Prerequisites:Engineering 104. Open to Engineering students only. An introduction to the aerospace structural design process. History of aircraft materials. Effects of loading beyond elastic limit. Deflections and stresses due to combined loading. Virtual work principles, and finite element methods. Applications to aerospace structures.-III. (III.) Sarigul-Klijn
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EAE 133 - Finite Element Methods in Structures
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