Regression analysis. Precision-point Burmester theory for dimensional synthesis of linkages. Newton/Euler and Lagrangian formulations for three dimensional motion of particles and rigid bodies. Minimum grade of "C" required for enforced prerequisites. Prerequisite: ME 350, Design and analysis of mechanical systems considering theories of static failure, material selection, fatigue, finite element analysis, impact loading, and statistics/reliability. Material properties, including physical, mechanical, thermal, electrical, economic, corrosion and environmental properties. Prerequisite: graduate standing and seniors by PI. Typical power producing cycles and refrigerators. Joint design and joining methods. Concept of statistical process control (SPC). Use of software for synthesis and analysis. Response model building. Integration of economic indicators with life cycle environmental and social metrics for evaluating technology systems. Topics may be chosen from any of the areas of mechanical engineering. The student will submit a report on the project at the close of the term. Mechatronics is the synergistic integration of mechanical disciplines, controls, electronics and computers in the design of high-performance systems. (Course Profile), Prerequisite: MECHENG 382. Derivation of the acoustic wave equation and development of solution techniques. Prerequisite: MECHENG 440. Weekly lectures and experiments designed to introduce the student to the basics of experimentation, instrumentation, data collection and analysis, error analysis and reporting. Design and operating characteristics of different types of engines. For non-mechanical engineering majors. Stream of variation. A semester team-based design project is required. Prerequisite: MECHENG 520. Election for dissertation work by a doctoral student who has been admitted to candidate status. Methods for calculation of turbulent flows; the problem of closure, semi-empirical, phenomenological and analytical theories of turbulence, large-eddy and direct simulations of turbulence. (3/6 credits) Globalization and manufacturing paradigms. ME 391: Engineering Problems. Modern control theory and digital control theory are introduced. Basics of manufacturing: processes, materials and thermofluid aspects. Reconfigurable manufacturing systems. The effect of closed-loop control on the transient response, error, stability, and frequency response of systems is investigated. Prerequisite: MECHENG 311. Prerequisite: MECHENG 230 or MECHENG 336. Introduction to turbulent premixed combustion. Heat transfer mechanisms. Prerequisite: MECHENG 520. Elastodynamic equations, isotropic and anisotropic materials; vector/scalar potentials, reflection and transmission at interfaces, mode conversion, surface waves, Rayleigh-Lamb equation. Each student is required to submit a final paper embodying the results of the study/research. Fundamentals of statistics. Prerequisite: MECHENG 235, MECHENG 335. (3 credits) Elements of quantum mechanics, statistical mechanics and kinetic theory, as applied to engineering thermodynamics. Design strategies for power systems are described, in the context of growing global demand for power and energy. Using a decision-making framework, emphasis is placed on quantitative methods. Topics will include controls, heat transfer, fluid mechanics, thermodynamics, mechanics, materials and dynamical systems. Prerequisite: MECHENG 440 or MECHENG 540. Heat transfer by conduction, convection, radiation; heat storage, energy conservation; steady-state/transient conduction heat transfer; thermal circuit modeling; multidimensional conduction; surface radiation properties, enclosure radiation exchange; surface convection/fluid streams over objects, non-dimensional numbers, laminar, turbulent, thermo-buoyant flow, boiling and condensation; heat exchangers; design of thermal systems, solvers for problem solving/ design. Prerequisite: MECHENG 541. Surface roughness effects. (3 credits) Applied mathematics for mechanical engineering with an emphasis on mathematical principles and analytical methods. Proficiency in the fundamental understanding of materials processing techniques. Topics: paradigms of manufacturing; building blocks of manufacturing systems; numerical control and robotics; task allocation and line balancing; system configurations, performance of manufacturing systems including quality, productivity, and responsiveness; economic models and optimization of manufacturing systems; launch and reconfiguration of manufacturing systems; Lean manufacturing. Not open to graduate students. Students who take the honors sequence in place of the senior design sequence (ME 497/498) must fully participate in the lecture portion of ME 497 and 498. Offered: Spring semester. Eigenvalue and boundary value problems. Vector description of force, position, velocity and acceleration in fixed and moving reference frames. Stress, strain and displacement, equilibrium and compatibility. (Course Profile), Prerequisite: MECHENG 320. Not open to graduate students. Surface generation. Prerequisite: ES 230, Processes used to manufacture/fabricate products from metals and alloys, ceramics and glasses to polymers and composites are explored. Assembly on product and process. Prerequisite: ES 231 or permission of instructor, The study of the basic concepts and laws of thermodynamics applicable to all types of thermodynamic systems. (Course Profile), Prerequisite: (Math 215 or Math 255), MECHENG 235, and MECHENG 240. Surface durability in rolling. Radiation and scattering from non-simple geometries. (3 credits) contact the department. Design and interpretation of control charts. May not be taken concurrently with MECHENG 455 or MECHENG 495. The finite volume formulation of the equations. Stationary analysis. Product invention strategy. This course covers battery modeling, control and diagnostic methodologies associated to battery electric and battery hybrid electric vehicles. Prerequisite: MECHENG 360; preceded or accompanied by MECHENG 461. Emphasis on the methodology for developing elements by using calculus of variations. Prerequisite: graduate standing; permission of the instructor who will guide the work; mandatory satisfactory/unsatisfactory. (Course Profile), Prerequisite: MECHENG 250. Winter 2020 Course Schedule; Course Resources. Minimum Grade of "C-" required for enforced prerequisite. Modeling, analysis and control of vehicles with electrified propulsion systems, including electric vehicles, hybrid vehicles, plug-in and fuel cell vehicles. Prerequisite: MECHENG 438 and MECHENG 461 or equivalent is recommended. Prerequisite: MECHENG 438. (4 credits) Prerequisite: ES 230; Math 264, A combination of analytical and computer methods in the kinematic and kinetic analysis of mechanisms and machines.


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