(3 credits) Systems are represented using single ordinary differential equations, state-space, and transfer functions. Concept of statistical process control (SPC). Minimum grade of "C" required for enforced prerequisites. Ito calculus and mean-square analysis. Introduction of the concepts and terminology, the state of the art developmetn, energy conversion and storage options, modeling, analysis, system integration and basic principles of vehicle controls. (Course Profile), Prerequisite: senior or graduate standing. Mathematical modeling of engineering design problems as discrete optimization problems, integer programming, dynamic programming, graph search algorithms, and introduction to NP completeness. A broad treatment of stress, strain and strength with reference to engineering design and analysis. Students study the modeling of normal and abnormal human physiology and the devices for medical therapy. Product invention strategy. (1-3 credits) 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. This is a technical elective. Prerequisite: MECHENG 360; preceded or accompanied by MECHENG 461. (to be arranged) This is a Technical Elective. Emphasis is on measurement techniques used for quantities of particular importance to the mechnical engineer which include temperature, pressure, flow rate, displacement, speed, force, strain, torque, and power. This is a Technical Elective. Globalization and manufacturing paradigms. Prerequisite: MECHENG 336. Cam and follower system synthesis. Analytical approach to the engineering problem and performance analysis of internal combustion engines. Kirchhoff-Love and Reissner-Mindlin kinematic hypotheses for beam, plate and shell theories. Individual or group experimental or theoretical research in the area of mechanical engineering. Unified approach to the atomic-scale origins of plastic, viscous, viscoelastic, elastic, and anelastic behavior. Typical power producing cycles and refrigerators. This course also includes the effect and control of automotive emissions. Kinetics of particles, of assemblies of particles and of rigid bodies. Perturbation theory for the eigenvalue problem. For undergraduates only. Prerequisite: ME 461 or equivalent. Prerequisite: MECHENG 501 (MECHENG 311 or MECHENG 320). Prerequisite: ME 353. This is a Technical Elective. Vibration of continuous systems. Variational methods of approximation: Bubnov-Galerkin. The School of Mechanical Engineering offers well engineered seamless courses for students at many different levels such as undergraduate, Diploma/certificate, post-graduate and research based Ph.D. level courses, not only for Mechanical Engineering, but also for Automobile, Aerospace Engineering… Tolerance analysis. Mechanical and electrical issues in micromachining. Mechanics of deformable bodies: stress/strain, classification of material behavior, generalized Hooke's law. Reconfigurable manufacturing systems. Study of the mechanism of surface bonding, welding metallurgy, effect of rate of heat input on resulting microstructures, residual stresses and distortion, economics and capabilities of the various processes. Design and optimization of thermal systems. Exposure to CAD systems and basic machine shop techniques. Energy and momentum concepts. Study of thermodynamics, combustion, heat transfer, friction and other factors affecting engine power, efficiency and emissions. Recent developments in finite element methods; mixed, hybrid, mixed-hybrid, reduced integration penalty, singular, boundary integral elements. Disciplinary depth and breadth, together with hands-on discovery and … Derivation of the acoustic wave equation and development of solution techniques. Lecture/laboratory. Extensive use of commercial finite element software packages, through computer labs and graded assignments. One of the six founding courses of study at MIT, Mechanical Engineering embodies the motto “mens et manus” — mind and hand. Advised Prerequisite: CEE 373 or equivalent, MECHENG 360 or CEE 572 or equivalent, MECHENG 564/CEE 571 or equivalent Dynamics of muscle and tendon, models of muscle contraction. Offered: Spring semester. Linear free and forced responses of one and two degree of freedom systems and simple continuous systems. Review of energy methods, Betti's reciprocal theorem; elastic, thermoelastic and elastoplastic analysis of axisymmetric thick cylinders and rotating discs; bending of rectangular and circular plates, including asymmetric problems; beams on elastic foundations; axisymmetric bending of cylindrical shells; torsion of prismatic bars. The student(s) submits proposal and presents poster at ME Undergraduate Symposium. Prerequisite: MECHENG 230 or MECHENG 336.
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