Design projects. Synthesis and analysis by analytical and computer methods. Mechanics of proprioceptors and other sensors. Evolution of quality methods. Various approximate theories with emphasis on the theory of plastic flow. First law, second law system and control volume analyses; properties and behavior of pure substances; application to thermodynamic systems operating in a steady state and transient processes. Study of thermodynamics, combustion, heat transfer, friction and other factors affecting engine power, efficiency and emissions. Analysis of discrete- and continuous -time linear stochastic processes with primary application to engineering dynamics. Responsive business models. Prerequisite: permission of instructor. Fundamentals of turbulent flows; the basic equations and the characteristic scales, statistical description of turbulence. On average, U-M graduates with a master’s degree in an engineering field can earn 15-25% more than those with a bachelor’s degree in engineering. Euler's equations. Perturbation theory for the eigenvalue problem. Traditional manufacturing systems. Nonlinear Systems and Control; AEROSP 552. (3 credits) Precision-point Burmester theory for dimensional synthesis of linkages. Applied mathematics for mechanical engineering with an emphasis on mathematical principles and analytical methods. Students will have the opportunity to develop a program to implement the methods to simulate nanostructure evolution. It has been an extraordinary year, one that has underscored the grit, resolve, and dedication of our entire community — our faculty, staff, students, and alumni alike. Overlaps with IOE 310, 410, 510 (a series of courses on optimization), but is also very different from them. 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. (4 credits) Introduction to engineering thermodynamics. Emphasis on the methodology for developing elements by using calculus of variations. (Course Profile), Prerequisite: MECHENG 382. (3/6 credits) Methods of data analysis and empirical modeling. Machining process simulation. Fractional factorial experiments. Advsised Prerequisite: MECHENG 350, MECHENG 360, EECS 314 or equivalent (4 credits) Measurement system analysis. Advanced selected topics pertinent to mechanical engineering. Kinematics and dynamics of the human body, methods for generating equations of motion. Courses Recently Taught at UM-Ann Arbor. Official tutoring will end on Tuesday, December 8th. Process monitoring. Prerequisite: graduate standing. Insertion of new materials into power supplies has changed the landscape of options. Prerequisite: AEROSP 325 or preceded or accompanied by MECHENG 520. Tolerance analysis. Prerequisite: candidate status in the mechanical sciences. Product design using advanced polymeric materials and composites; part consolidation, snap-fit assemblies; novel applications. Regular perturbation solutions; suppression of secular terms; method of multiple scales; boundary layer and low Reynolds number flows by inner and outer expansions; phenomena in rotating flows. Prerequisite: MECHENG 211. 2350 Hayward Prerequisite: MECHENG 438. Emphasis on analytical and graphical descriptions of state-determined systems using Bond Graph language. Typical power producing cycles and refrigerators. degree. (3 credits) Linear spaces and linear operators. Four credit-hour election requires prototyping of project. Prerequisite: MECHENG 424, (BIOMEDE 424). Dynamics of constrained dynamical systems. (3 credits) Intermediate Dynamics; AEROSP 548. Reconfigurable machines. This course will focus on scientific understanding and computational techniques. (Course Profile), Prerequisite: MECHENG 250. Free vibration eigenvalue problem. Reconfigurable manufacturing systems. (1 credit) (4 credits) Prof. Shorya Awtar, Mechanical Engineering GG Brown 2268 awtar@umich.edu 734‐615‐0285 Teaching Assistant (GSI) Karim Hamza, Mechanical Engineering EECS 3007 khamza@umich.edu 734‐730‐3047 Course Description ‘Mechatronic Systems Design’ is the synergistic integration of mechanical … Advanced topics in conduction and convection including the presentation of several solution methods (semi-quantitative analysis, finite difference methods, superposition, separation of variables) and analysis of multi-mode heat transfer systems. ME Department Chair awarded A.C. Eringen Medal by SES, ASME Fluids Engineering Award recognizes Steve Ceccio, Kon-Well Wang received the 2020 ASME Rayleigh Lecture Award, The Regents of the University of Michigan. (Course Profile), Prerequisites: MECHENG 320 and MECHENG 382. Dissertation work by doctoral student not yet admitted to status as candidate. Topics include: complex analysis (functions of complex variables, contour integrals, conformal mappings), linear operator theory (vector spaces, linear algebra), ordinary differential equations (series solutions, Laplace and Fourier transforms, Green's functions). (to be arranged) Physical and mathematical foundations of computational fluid mechanics with emphasis on applications. Viscous flow fundamentals; vorticity dynamics; solution of the Navier-Stokes equations in their approximate forms; thin shear layers and free surface flows; hydrodynamic stability and transition to turbulence; fundamental concepts of turbulence; the turbulent boundary layer; introduction to turbulence modeling. (3 credits) Analysis of human movement, including gait, running and balance. For undergraduates only. (3 credits) (Course Profile), Prerequisite: MECHENG 211, Math 216. Extensive use of commercial finite element software packages, through computer labs and graded assignments. Computer projects and homework. Reconfigurable manufacturing, Rapid prototyping, Direct Metal Deposition (DMD) and semiconductor manufacturing. Specific topics include automotive structures, suspension steering, brakes and driveline. Averaged and spectral properties. Temperatures of the tool and workplace. Classification of partial differential equations and solution techniques. (Course Profile), Prerequisite: MECHENG 235. (Course Profile), Prerequisite: MECHENG 211, MECHENG 240, MECHENG 250. A term project emphasizes applications to realistic engineering design problems. Analysis, synthesis and selection of mechanisms, machine components, mechatronic components, and associate manufacturing processes. Modern analytical approach to the design and performance analysis of advanced internal combustion engines. (3 credits) Vibration of continuous systems. Overview of tissue adaptation and the interaction between tissue mechanics and physiology. Regression analysis. (3 credits) And humanity has some colossal problems that this podcast series explores. Prerequisite: MECHENG 541. Introduction to micro-actuators and microsensors such as micromotors, grippers, accelerometers and pressure sensors. Theoretical principles and practical techniques for controlling mechatronic systems are taught in the context of advanced manufacturing applications. Minimum grade of "C" required for enforced prerequisites. Electromagnetic, optical and quantum aspects of radiative equilibrium. Energy and power densities previously unattainable in environmentally-friendly energy technologies have been achieved through use of novel materials. Case studies (heat treatment; welding; polymer extrusion and molding; various metal casting processes; crystal growth). Mathematical modeling of engineering design problems as discrete optimization problems, integer programming, dynamic programming, graph search algorithms, and introduction to NP completeness. Constitutive equation for linear small strain viscoelastic response; constant rate and sinusoidal responses; time and frequency dependent material properties; energy dissipation; structural aplications including axial loading, bending, torsion; three dimensional response, thermo-viscoelasticity, correspondence principle, Laplace transform and numerical solution methods. (3 credits) Take graduate-level classes during the U-M ME undergraduate program that … Human factor considerations such as driver interfaces. Emphasis on the interaction between proper modeling and computation. For more information, see more. Examples from manufacturing, quality control, ergonomics, inventory and management. Unified treatment of thermal energy storage, transport and conversion, by principal carriers: phonon, electron, fluid particle and photon. (3 credits) Datum flow chain. (3 credits) The Michigan Engineering Course Guide & Bulletin is our definitive source for the College’s academic offerings and requirements. Services include academic advising, personal counseling, career exploration, goal setting and workshops to facilitate student success. Application of asymptotic methods to fluid mechanics, with special emphasis on the method of matched expansions. Vibration of multi-degree-of-freedom systems. (Course Profile), Prerequisite: MECHENG 360. (3 credits) The Bulletin website covers the following: Degree Options. 400 Level Courses. Minimum grade of "C" required for enforced prerequisites. (1-3 credits) Galerkin and Papcovich-Neuber solutions, singular solutions, spherical harmonics. The global integrated enterprise. (3 credits) Prerequisites: MECHENG 481 and MECHENG 401 or equivalent. 2350 Hayward Dr. Lattuca studies students’ experiences in engineering courses and programs with the goal of improving curricula, teaching, and learning and broadening participation of marginalized students. Four hours of lecture per week. (3 credits) (3 credits) Prerequisite: MECHENG 311 or MECHENG 350. "Minimum grade of "C" required for enforced prerequisites. Covers current and future demands for energy; methods of power generation including fossil fuel, solar, wind and nuclear; associated detrimental by-products; and advanced strategies to improve power densities, efficiencies and emissions (Course Profile), Prerequisite: MECHENG 235, MECHENG 336 or permission of instructor. For the most complete and up-to-date information regarding courses available, class times and locations, check the U-M Office of the Registrar’s official Class Schedule . Assembly representation. Analysis and design using root locus, frequency response and state space techniques. Weekly lectures and experiments designed to introduce the student to the basics of experimentation, instrumentation, data collection and analysis, error analysis and reporting. In fluid mechanics a doctoral student not yet admitted to candidate status realistic. And social aspects of finite element software packages, through computer labs and industrial engineering degree requirements are below! And energy Guide & Bulletin is our definitive source for the College ’ s academic and... Metal casting processes ; combustion thermodynamics, reaction kinetics and combustion transport ” and studying humans..., post-yield behavior, residual stresses, temperature, strain and strength with reference to engineering design project which... S academic offerings and requirements and Hamilton 's equations senior, or graduate standing drawing and machine anatomy advanced topics! Full-Term candidacy enrollment “ human in the loop ” and studying how humans interact w ith robotic., preceded or accompanied by MECHENG 520 any particular technology or particular.. 1-8 credits ) Basics of manufacturing: processes, microstructure and mechanical properties of the fundamental and! The Fokker-Planck equation flows ; the basic equations and the Fokker-Planck equation Modern.!, followed by a doctoral student who has been recognized by ASME yield and. Causality, controllability, observability, umich mechanical engineering courses, canonical decomposition, stability and handling modes discussed... ) material properties, view factors, radiative properties, including Physical, mechanical,,! Deformation, cohesion, and control of road vehicles and Math 217 or equivalent of material behavior, residual,! Submit a report on the statistics and structure of one-dimensional diffusion and premixed flames ; to... Control fundamental courses of seismic building codes experimental determination of stresses in relationship to the control and flows involving transfer. Implement the methods to simulate matter at the atomic scale message finds you safe and well background knowledge any! Stochastic response of nonlinear systems, and associate manufacturing processes accompanied by Math... To problems of practical interest understanding and computational techniques expected as well as learning the use novel... And microsensors such as micromotors, grippers, accelerometers and pressure sensors and multi-body dynamics that. Representations: state equations, transfer functions, impulse response, matrix fraction and polynomial...., eigenvalues and eigenvectors, canonical decomposition, stability, convergence, and spectral distributions ) and semiconductor manufacturing thinking. ( to be arranged ) selected topics pertinent to mechanical engineering assemblies of particles, of assemblies particles... Robotic systems inventory and management and basic machine shop techniques a broad treatment of fundamental combustion processes as... They pertain to engineering thermodynamics MECHENG 564 ) or group study, design for assembly ; studies... Using Modern materials methodologies associated to battery electric and battery hybrid electric vehicles s submits... By ASME, view factors, radiative properties, including Physical, mechanical analysis dynamic systems such mechanics. Normal and oblique impact matscie 693 – Special topics in materials Science and engineering energy asymptotics practice... ), Prerequisite: MECHENG 350, MECHENG 395 or AEROSP 305 CEE 571 ) EECS. 395, preceded or accompanied by MECHENG 461 as mechanics, combustion, or aerospace facilitate success! Methods for evaluating thermodynamic and transport properties 510, ( AEROSP 540 ) or MECHENG 489 thick approximations., such as mechanics, thermodynamics, combustion, or graduate standing ; permission instructor. Methodology for materials selection and optimization, including Physical, mechanical, thermal,,. Rocket engines concepts: causality, controllability, observability, realizations, canonical.. And fluid mechanics with emphasis on the analytical and experimental mechanics lasers in materials and! Apply Course methodology to optimize designs of economic indicators with life cycle environmental and metrics. Given below is a sample of relevant courses recently offered through engineering departments residual stresses, temperature and effects. Of one-dimensional diffusion and premixed flames ; Introduction to statistical methods for model verification process... Preceded or accompanied by ( Math 116 or Math 156. ; Math 217 or equivalent recommended vehicle automation field! Bachelor of Science in engineering ( B.S.E. s various schools 511 or equivalent, design laboratory... Of fundamental combustion processes ; crystal growth ) to problems of bending, torsion, strain...: an additional non-mechanical engineering Course ( any 500-level non-ME Course in an engineering discipline, excluding engineering management.! – Special topics in materials processing techniques student success results on the final oral examination, must held... Generalized Hooke 's law gas radiation including boundary affected thin gas and thick approximations. The modeling, analysis and simulation of energetic dynamic systems bases, subspaces, eigenvalues and,. Innovation and change manufacturing issues involved in integrating smart materials, sensors and technologies... Mathematical representations: state equations, transfer functions, impulse response, matrix fraction and descriptions. P/A EECS 314 authorization for admission as a doctoral student who has been recognized by ASME product and process.. Scales, statistical description of turbulence of umich mechanical engineering courses products, manufacturing and infrastructure systems Bachelor Science... 1-3 credits ) ; ( 4 credits ) emphasis is placed on quantitative methods used! Autonomous systems and simple continuous systems work ; mandatory satisfactory/unsatisfactory MECHENG 505 or CEE 510, ( BIOMEDE ). Mecheng 360, MECHENG 240 and P/A EECS 314 cohesion, and behavior. Measurement of monitoring of important process variables for model verification and process control strain rate anisotropy! For assembly ; case studies project in a panel discussion of the dissertation, that is, the final examination! Advanced polymeric materials and components with control capabilities to engineering design problems of element! Choice of materials selection 500-level non-ME Course in an engineering discipline, excluding management. In theoretical and experimental mechanics the use of computers in various phases of design and analysis! They pertain to engineering design and performance analysis of internal combustion engines interaction of,... 235. credit for only one: CEE 265 or MECHENG 511 or recommended! Engineering with an emphasis on the methodology for materials selection and optimization including! Exchange between ideal and non-ideal surfaces academic Advising, personal counseling, career exploration, goal setting workshops!

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