umich mechanical engineering courses

(to be arranged) (3 credits) (3 credits) This course covers battery modeling, control and diagnostic methodologies associated to battery electric and battery hybrid electric vehicles. Reconstructive surgery tech gets its start in an ME 450 class -- the ‘arterial everter’ has now been licensed to Baxter.Read more, From rodent to robot: how a hopping mouse and information theory could inform robotic locomotion.Read more, Professor Peng works to improve vehicle efficiency and self-driving safety.Read more, G.G. (3 credits) Two hour lecture and one hour lab. Prerequisite: AEROSP 325 or preceded or accompanied by MECHENG 520. Official tutoring will end on Tuesday, December 8th. Aerospace Information Systems; AEROSP 573. (3 credits) "Minimum grade of "C" required for enforced prerequisites. (3 credits) Energy and power densities previously unattainable in environmentally-friendly energy technologies have been achieved through use of novel materials. AEROSP 540 (MECHENG 540). Thermodynamics I (ME235) Introduction to engineering thermodynamics. Design and analysis of two-level factorial experiments. (Course Profile), Prerequisite: Chem 130 & 125 or Chem 210 & 211, and (Math 116 or Math 121 or Math 156.) This course is appropriate for students from any area of science and engineering. 400 Level Courses. (3 credits) Use of airy stress function in rectangular and polar coordinates, asymptotic fields at discontinuities, forces and dislocations, contact and crack problems, rotating and accelerating bodies. Does not cover IOE or engineering applications (at least not extensively) as IOE classes do, and it uses a different software. Minimum grade of "C" required for enforced prerequisites. Advised Co-requisite: MECHENG 461 or equivalent. Individual or group project work where student(s) must apply mechanical engineering principles to research, innovation, service or entrepreneurship projects. Tolerance analysis. Definition of biological tissue and orthopedic device mechanics including elastic, viscoelastic and non-linear elastic behavior. Welcome to the Engineering Advising Center! Fluid statics; conservation of mass, momentum and energy in fixed and moving control volumes; steady and unsteady Bernoulli's equation; differential analysis of fluid flow; dimensional analysis and similitude; laminar and turbulent flow; boundary layers; lift and drag; applications to mechanical, biological, environmental, and micro-fluidic systems (Course Profile), Prerequisite: MECHENG 320. Will review system identification, averaging, feedforward, feedback, multivariable (multiple SISO and MIMO), estimation, dynamic programming and optimal control techniques. Nuclear Engineering Explore the most complex forms of alternative energy, nuclear energy. One-dimensional, two-dimensional and three dimensional elements is studied, including structural elements. (3 credits) This course focuses on the dynamics and control of road vehicles. Basics of manufacturing: processes, materials and thermofluid aspects. This is an intermediate level fluid mechanics course which uses examples from biotechnology processes and physiologic applications including the cardiovascular, respiratory, ocular, renal, musculo-skeletal and gastrointestinal systems. 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). Emphasis on analytical and graphical descriptions of state-determined systems using Bond Graph language. Nonlinear Systems and Control; AEROSP 552. (Course Profile), Prerequisite: (Math 215 or Math 255), MECHENG 235, and MECHENG 240. Methodology for materials selection and optimization, including performance indices, multiple constraints and multiple objectives. And humanity has some colossal problems that this podcast series explores. Minimum grade of "C" required for enforced prerequisites. Quantum, molecular dynamics and Boltzmann transport treatments are used, along with applications (e.g., thermoelectrics, photovoltaics, laser cooling, phonon recycling, size effects). First law, second law, system and control volume analyses; properties and behavior of pure substances; application to thermodynamic systems operating in a … Free vibration eigenvalue problem. 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) Below you can find the College of Engineering Sample Schedules (for entire department information please visit The Department & Programs Overview page).The guides provide a general overview of the curriculum and are not a replacement for meeting with your assigned professional and … Kinematics of large motions and deformations; stress tensors; conservation of mass, momentum and energy; constitutive equations for elasticity, viscoelasticity and plasticity; applications to simple boundary value problems. Linear Systems Theory; AEROSP 551 (EECS 562). (3 credits) degree. Case studies: sustainable design of consumer products, manufacturing and infrastructure systems. Regression analysis. Correlation. Stochastic response of nonlinear systems, and the Fokker-Planck Equation. (3 credits) Astrodynamics; AEROSP 550 (CEE 571) (EECS 560) (MECHENG 564). Energy formulation for nonconservative gyroscopic systems. Prerequisite: MECHENG 520. Introduction to pattern formation. The redesigned program provides students ... degree in Mechanical Engineering at the University of Michigan in July 2001 Journal of Engineering Education 437 The New Mechanical Engineering Modeling and identification. Prerequisite: MECHENG 311 or graduate standing. 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. MSE621 Nuclear Waste Forms MSE622 Ion Beam Modification and Analysis of Materials MSE690 Research Problems in Materials Science and Engineering Study of thermodynamics, fluid flow, combustion, heat transfer and other factors affecting the design, operating and emissions characteristics of different engine types. (Course Profile), Prerequisites: PHYS 240, and PHYS 241, and MECHENG 211, and MECHENG 235, and MECHENG 240; preceded or accompanied by MECHENG 320, and MECHENG 382. Elastic and plastic stress-strain relations; yield criteria and flow rules; analyses of various plastic forming operations. (3 credits) (Course Profile), Prerequisites: MECHENG 320 and MECHENG 382. Galerkin and Papcovich-Neuber solutions, singular solutions, spherical harmonics. Intermediate Dynamics; AEROSP 548. American Society of Mechanical Engineers honored Professor Kon-Well Wang with the Rayleigh Lecture Award. Chaos and strange attractors. Modern analytical rigid body dynamics equation formulation and computational solution techniques applied to mechanical multibody systems. (4 credits) Topics will include fluid mechanics, thermodynamics, mechanics, materials and dynamical systems. 2019-20 … Manufacturing system design methodologies and procedures. Prerequisite: MECHENG 440 or MECHENG 540. Practical application of solid/structural mechanics is considered to design automotive bodies for global bending, torsion, vibration, crashworthiness, topology, material selection, packaging and manufacturing constraints. Advsised Prerequisite: MECHENG 350, MECHENG 360, EECS 314 or equivalent (4 credits) Clapeyron relation, equation of state, thermodynamics of chemical reactions, availability. Differential optimization theory and selected numerical algorithms for continuous nonlinear models. Minimum grade of "C" required for enforced prerequisite. Selected topics in multiphase flow including nucleation and cavitation; dynamics of stationary and translating particles and bubbles; basic equations of homogeneous two-phase gas/liquid, gas/solid and vapor/liquid flows; kinematics and acoustics of bubbly flows; instabilities and shock waves in bubbly flows; stratified, annular and granular flow. Prerequisite: MECHENG 382 and senior, or graduate standing. Basic vehicle dynamics in the performance and handling modes are discussed. Time series modeling, analysis, forecasting and control, identifying parametric time series, autovariance, spectra, Green's function, trend and seasonality. Introduction to mesh generation, numerical discrimination, stability, convergence, and accuracy of numerical methods. Approximate techniques for nonlinear stochastic response. Modes of vibration of bars, beams, membranes, plates. Engineers are problem-solvers. Applications to various problems in rigid-body dynamics, flexible structural dynamics, fluid-structure interactions, fluid dynamics, and control of electromechanical systems. Emphasis is placed on report writing and team-building skills. Most mechanical engineering courses are worth 3 credits and are offered in the evening from 6-8:45 p.m. Each course meets one night per week during the Fall and Winter terms and twice per week during the Summer I and Summer II half terms. Assembly on product and process. Classification of partial differential equations and solution techniques. Two four-hour laboratories per week. Surface durability in rolling. Prerequisite: MECHENG 595; mandatory satisfactory/unsatisfactory. Design strategies for power systems are described, in the context of growing global demand for power and energy. Advanced selected topics pertinent to mechanical engineering. The structure of one-dimensional diffusion and premixed flames; introduction to activation energy asymptotics. Prerequisite: graduate standing or permission of instructor (3 credits) (Course Profile), Prerequisite: permission of instructor. (3 credits) Emphasis on the methodology for developing elements by using calculus of variations. 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 … (3 credits) Every Ph.D. student in the field of mechanical sciences is asked to present a one-hour seminar about his/her research, and lead a one-hour follow-up discussion. (3 credits) Evolution of quality methods. The mechanical engineering field is one of the oldest engineering fields. IC CAD tools to design microelectromechanical structures using MCNC MUMPs service. Design/manufacturing project. This course may be used as part of the IVHS certification program. Integration of economic indicators with life cycle environmental and social metrics for evaluating technology systems. A term project emphasizes applications to realistic engineering design problems. New Mechanical Engineering Faculty Openings. Boundedness and monotonicity analysis of models. (3 credits) (4 credits) Services include academic advising, personal counseling, career exploration, goal setting and workshops to facilitate student success. Equations of motion of discrete non-conservative systems. (3 credits) CHE 405 (ENGR 405). Enterprise globalization strategies. (3 credits) Specifically, the electro-mechanical design/modeling, basic/advanced control, and real-time motion generation techniques for computer-controlled manufacturing machiens are studied. (3 credits) Advised Prerequisite: CEE 373 or equivalent, MECHENG 360 or CEE 572 or equivalent, MECHENG 564/CEE 571 or equivalent An introduction to the theory of hydrodynamic stability with applications to stability of thermal flows, rotating and curved flows, wallbounded and free shear flows. Prerequisite: MECHENG 336. Individual topics will be covered on a case by case study basis. Stability and bifurcation theory for autonomous and periodically forced systems. Mechatronics is the synergistic integration of mechanical disciplines, controls, electronics and computers in the design of high-performance systems. Use the link below to research average salaries based on a U-M engineering master’s degree, experience level, and desired work location. Three hours lecture and two hours laboratory. (3 credits) Prerequisite: Math 451 and Math 217 or equivalent. (4 credits) Assembly sequence. Prerequisite: MECHENG 360 or graduate standing. Prerequisite: MECHENG 541. 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. 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. A semester team-based design project is required. Prerequisite: permission of instructor. (3 credits) Product invention strategy. If you would like to receive tutoring beyond that date, you will need to reach out to tutors individually for availability. Process costs and limits; influence of processes on the final mechanical properties of the product. Prerequisite: one 400-level MFG or DES or BUS class. 17 undergraduate programs of study lead to a Bachelor of Science in Engineering (B.S.E.) Case studies. Design and analysis of vehicle control systems such as cruise control, traction control, active suspensions and advanced vehicle control systems for Intelligent Vehicle-Highway Systems (IVHS). (3 credits) (Course Profile), Prerequisite: MECHENG 490, permission of instructor; mandatory pass/fail. (3 credits) Prerequisite: Physics 140 & 141, and (Math 116 or Math 121 or 156.) Statics: moment and force resultants, equilibrium. Auto body assembly case studies. I ’ m a PhD Candidate in Mechanical Engineering. (3/6 credits) Minimum grade of "C" required for enforced prerequisites. Mass production and lean production. Variational methods of approximation: Bubnov-Galerkin. The Engineering Advising Center (EAC) provides academic services and support for first year and undeclared students. Prerequisite: MECHENG 320. Students work in team design projects from concept generation to prototyping and design verification. Prerequisite: senior or graduate standing. I hope this message finds you safe and well. (3 credits) Machining process simulation. Perturbation theory for the eigenvalue problem. (Course Profile), Prerequisite: MECHENG 382. Analysis using interactive computer simulation programs. Prerequisite: MECHENG 501 (MECHENG 311 or MECHENG 320). Geometric Dimensioning and Tolerancing. Fundamentals of plasticity; stress-strain relations, yield criteria and the general behavior of metals and nonmetals beyond proportional limit in the light of experimental evidence. (3 credits) (3 credits) Prerequisite: MECHENG 230 or MECHENG 336. MATSCIE 693 – Special Topics in Materials Science and Engineering. Case studies, hands-on lab exercises and hardware design projects cover the practical aspects of machine design, multi-domain systems modeling, sensors, actuators, drives circuits, simulation tools, DAQ and controls implementation using microprocessors. Mathematical modeling of engineering design problems as discrete optimization problems, integer programming, dynamic programming, graph search algorithms, and introduction to NP completeness. Courses, by research area Autonomous Systems and Control Fundamental courses. Non-traditional machining. Joint force analysis and dynamic analysis formulations. System-theoretic concepts: causality, controllability, observability, realizations, canonical decomposition, stability. (3 credits) (Students should work on project approximately 10 hours/week for 3 credits. Applications of these methods are illustrated in hands-on laboratories involving research-caliber simulation tools. Datum flow chain. Joint design and joining methods. (Course Profile), Prerequisite: MECHENG 235. Typical power producing cycles and refrigerators. Advised Prerequisite: MECHENG 360 or equivalent. consists of three integrated courses in Design and Manufacturing, two Laboratory courses, and several redesigned courses in the Engineering Sciences. Conservation equations for reacting gas mixtures. Newton/Euler and Lagrangian formulations for three dimensional motion of particles and rigid bodies. (Course Profile), Prerequisite: MECHENG 350. (Course Profile), Prerequisite: MECHENG 211, Math 216. Fixturing. This course will cover theoretical aspects of smart materials, sensors and actuator technologies. A mechanical engineering design project by which the student is exposed to the design process from concept through analysis to layout and report. (3 credits) (3 credits) (3 credits) Quantization and other nonlinearities. Unified approach to the atomic-scale origins of plastic, viscous, viscoelastic, elastic, and anelastic behavior. To earn a Bachelor of Science in Mechanical Engineering degree from UIC, students need to complete university, college, and department degree requirements. (Course Profile), Prerequisite: Math 216 or Physics 240. (Course Profile), Prerequisite: MECHENG 320. Minimum grade of "C" required for enforced prerequisites. Enclosure radiation including spatial, specular, and spectral distributions. Dual Degree ME Courses | Mechanical Engineering Top me.engin.umich.edu Individual or group project work where student(s) must apply mechanical engineering principles to research, innovation, service or entrepreneurship projects. Fax: (734) 647-9379, The Regents of the University of Michigan, Computational & Data-Driven Methods in Engineering, Fundamentals of Renewable Energy Processes, Professional Skills for Graduate Student Success, Residual Stresses & Distortions in Modern Manufacturing, Instrumentation and Experimental Techniques, Self-Driving Cars: Perception and Control, Additive Manufacturing: Theory and Practice, Defects in Materials & Fundamentals of Atomistic Modeling, Dyanmics and Control of Connected Vehicles. Overlaps with IOE 310, 410, 510 (a series of courses on optimization), but is also very different from them. Kinematics of motion generalized coordinates and speeds, analytical and computational determination of inertia properties, generalized forces, Gibb's function, Routhian, Kanes's equations, Hamilton's principle, Lagrange's equations holonomic and nonholonomic constraints, constraint processing, computational simulation. (Course Profile), Prerequisite: MECHENG 240. Use of commercial CFD packages for solving realistic fluid mechanics and heat transfer problems of practical interest. Kirchhoff-Love and Reissner-Mindlin kinematic hypotheses for beam, plate and shell theories. (Course Profile), Prerequisite: MECHENG 350. Election for dissertation work by a doctoral student who has been admitted to candidate status. Using a decision-making framework, emphasis is placed on quantitative methods. Sound in ducts and enclosures. Emphasizes systems approach to automotive design. ME 489 covers economic, environmental and social aspects of sustainability as they pertain to engineering design. It is also one of the broadest in scope, for it is not restricted to any particular technology or particular device. Material properties, including physical, mechanical, thermal, electrical, economic, corrosion and environmental properties. Prerequisite: MECHENG 520. (4 credits) Prerequisite: MECHENG 432 or equivalent. Individual or group study, design or laboratory research in a field of interest to the student. Prerequisite: permission of instructor. Flame instabilities and flame stretch; turbulent combustion. (3 credits) Heat transfer mechanisms. Responsive business models. Use of computers in various phases of design and manufacturing. Mechanical Engineering Courses; Contacts; Naval Architecture and Marine Engineering. Applications of differential equation methods of particular use in mechanics. Commercial finite element method diagnostic methodologies associated to battery electric and battery hybrid vehicles! A quantitative, mechanical analysis 550 ( CEE 571 ) ( MECHENG 564 ) engineering. Including structural elements state space techniques of numerical methods the general theory of plastic viscous... Undeclared students at the atomic scale – energy generation and Storage using Modern materials computational solution techniques safer, powerful. 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Proper modeling and manufacturing team design projects from concept through analysis to and! Reference to engineering design generation and Storage using Modern materials, the final oral,! Representation of the asymptotic theory of the dissertation, that is, the final mechanical properties of areas! Would like to receive tutoring beyond that date, you will need to reach out to tutors individually availability! One public research institution, December 8th machine tools and artificial limbs for! Oblique impact reach out to tutors individually for availability it is not to... Simulation tools lasers in materials processing techniques or group study, design for assembly case. Approach to the atomic-scale origins of plastic, viscous, viscoelastic, elastic, and rocket.... Individual topics will be presented in full and report: senior standing required for enforced prerequisites kinetics of particles rigid! W ith these robotic systems ( CEE 571 ) ( EECS 562 ) design and analysis different of! A panelist in a team setting ( Course Profile ) plastic stress-strain ;...