Business and management terms dictionary glossary of terminology and definitions from business and management.
MAE Courses[ undergraduate. All courses, faculty listings, and curricular and degree requirements described herein are subject to change or deletion without notice. Updates may be found on the Academic Senate website: http: //senate. Courses. For course descriptions not found in the UC. San Diego General Catalog, 2. All undergraduate students enrolled in MAE courses or admitted to. MAE program are expected to meet prerequisite and performance standards. MAE courses or courses in another. C– or better. (The department does not. D or F grades as adequate preparation for subsequent material.). Additional details are given under the various program outlines, course. Jacobs School of Engineering. Furthermore, the majority of MAE courses have enrollment. MAE major. Where these restrictions apply. The department expects that students will. Students are advised that they may be dropped at any time. While most lower- division courses are offered more than once each year, many MAE upper- division courses are taught only once per year, and courses are scheduled to be consistent with the curricula as shown in the tables. When possible, MAE does offer selected large enrollment courses more than once each year. Lower Division MAE 0. Introduction to Aerospace Engineering (4)An introduction to topics in aeronautical and astronautical engineering including aerodynamics, propulsion, flight mechanics, structures, materials, orbital mechanics, design, mission planning, and environments. General topics include historical background, career opportunities, engineering ethics, and professionalism. Must be taken for a letter grade. Prerequisites: none. MAE. 0. 3. Introduction to Engineering Graphics and Design (4)Introduction to design process through a hands- on design project performed in teams. Topics include problem identification, concept generation, project management, risk reduction. Engineering graphics and communication skills are introduced in the areas of: Computer- Aided Design (CAD), hand sketching, and technical communication. Prerequisites: grade of C– or better in Phys 2. A or 4. A. Priority enrollment given to engineering majors. MAE 0. 5. Quantitative Computer Skills (4)Introductory course for nonengineering majors. Use of computers in solving problems; applications from life sciences, physical sciences, and engineering. Students run existing computer programs and complete some programming in BASIC. Prerequisites: none. MAE 0. 7. Spatial Visualization (1)(Cross- listed with SE 7.) Spatial visualization is the ability to manipulate 2- D and 3- D shapes in one's mind. In this course, students will perform exercises that increase their spatial visualization skills. P/NP grades only. Students may not receive credit for SE 7 and MAE 7. Prerequisites: none. MAE 0. 8. Matlab Programming for Engineering Analysis (4)Computer programming in Matlab with elementary numerical analysis of engineering problems. Arithmetic and logical operations, arrays, graphical presentation of computations, symbolic mathematics, solutions of equations, and introduction to data structures. Prerequisites: Math 2. A and 2. 0B or consent of instructor. MAE 2. 0. Elements of Materials Science (4)The structure of materials: metals, ceramics, glasses, semiconductors, superconductors, and polymers to produce desired, useful properties. Atomic structures. Defects in materials, phase diagrams, microstructural control. Mechanical and electrical properties are discussed. Time temperature transformation diagrams. Diffusion. Prerequisites: Phys 2. A or 4. A, Chem 6. A or Chem 6. AH, and Math 2. C. MAE 8. 7. Freshman Seminar (1)The Freshman Seminar program is designed to provide new students with the opportunity to explore an intellectual topic with a faculty member in a small seminar setting. Freshman Seminars are offered in all campus departments and undergraduate colleges. Topics vary from quarter to quarter. Enrollment is limited to fifteen to twenty students, with preference given to entering freshmen. Prerequisites: none. MAE 9. 2A. Design. Competition—Design, Build, and Fly Aircraft (1)(Cross- listed with SE 1. A.) Student teams design, build, and fly unmanned aircraft for a national student competition. Students concentrate on vehicle system design including aerodynamics, structures, propulsion, and performance. Teams engineering, fabricate the aircraft, submit a design report, and prep aircraft for competition. Prerequisites: consent of instructor. MAE 9. 3. Design Competition—Design. Build, and Test Race Car (1)Student teams design, build, and test a formula- style racing. Students concentrate. Teams engineer, fabricate car, submit a design. Prerequisites: department approval. MAE 9. 8. Directed Group Study (2)Directed group study on a topic or in a field not included in the regular departmental curriculum. P/NP grades only. May be taken for credit two times. Credit may not be received for a course numbered 9. Prerequisites: department approval. MAE 9. H. Independent Study (1)Independent study or research under direction of a member of the faculty. Prerequisites: student must be of first- year standing and a Regent’s Scholar; approved Special Studies form. Upper Division MAE 1. A. Introductory Fluid Mechanics (4)Fluid statics; fluid kinematics; integral and differential forms of the conservation laws for mass, momentum, and energy; Bernoulli equation; potential flows; dimensional analysis and similitude. Prerequisites: grades of C– or better in Phys 2. A, Math 2. 0D or 2. D and Math 2. 0E, or consent of instructor. Enrollment restricted to engineering majors only. MAE 1. 01. B. Advanced Fluid Mechanics (4)Laminar and turbulent flow. Pipe flow including. Boundary layers, separation, drag, and lift. Compressible. flow including shock waves. Prerequisites: grades of C– or better in MAE 1. A or CENG 1. 01. A or CENG 1. A, and MAE 1. 10. A or CENG 1. 02, or consent of instructor. MAE 1. 01. C. Heat Transfer (4)Extension of fluid mechanics in MAE 1. A–B. to viscous, heat- conducting flows. Application of the energy. Heat conduction and radiation transfer. Heat transfer. coefficients in forced and free convection. Design applications. Prerequisites: MAE. A or CENG 1. 01. A or CENG 1. A, MAE 1. 01. B, and MAE 1. MAE 1. 01. D. Intermediate Heat Transfer (4)Course builds on the MAE fluids sequence, offering more advanced concepts in conduction, convection, radiation, and heat exchanger design. This course covers numerical methods in conduction, boiling, condensation and evaporation analysis, natural and turbulent convection, spectral and directional radiative transfer, heatpipes, thermal design of spacecraft, heat exchanger analysis and design. Prerequisites: senior standing and MAE 1. C, or consent of instructor. MAE 1. 04. Aerodynamics (4)Basic relations describing flow field around. Thin- wing. theory. Slender- body theory. Formulation of theories for evaluating forces. Application to the design of high- speed. Prerequisites: grades of C– or better in MAE 1. A and 1. 01. B, or consent of instructor. Enrollment restricted to MC 2. MC 2. 7, MC 2. 8, and SE 2. MAE 1. 05. Introduction to Mathematical Physics (4)Fourier series, Sturm Liouville theory, elementary. Prerequisites: grades of C– or better in Phys 2. A and B, and Math 2. D or 2. 1D. Enrollment restricted to engineering majors only. MAE 1. 07. Computational Methods in Engineering (4)Introduction to scientific computing and algorithms; iterative methods, systems of linear equations with applications; nonlinear algebraic equations; function interpolation and differentiation and optimal procedures; data fitting and least- squares; numerical solution of ordinary differential equations. Prerequisites: grades of C– or better in MAE 8 or 9, and Math 1. F or 3. 1AH. Enrollment restricted to engineering majors only. MAE 1. 08. Probability and Statistical Methods for Mechanical Engineering (4)Probability theory, conditional probability, Bayes theorem. Engineering reliability. Curve fitting and. Students cannot receive credit for MAE 1. ECE 1. 09, Econ 1. A, Math 1. 80. A, Math 1. Math 1. 86, or SE 1. Prerequisites: Math 1. F. MAE 1. 10. A. Thermodynamics (4)Fundamentals of engineering thermodynamics. Application. to engineering systems, power and refrigeration cycles, combustion. Prerequisites: grades. C– or better in Phys 2. C and Chem 6. A. Enrollment restricted. MAE 1. 10. B. Thermodynamic Systems (4)Thermodynamic analysis of power cycles with application to combustion driven engines: internal combustion, diesel, and gas turbines.
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