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251 - 260 of 298 results for: ME

ME 392: Experimental Investigation of Engineering Problems

Graduate engineering students undertake experimental investigation under guidance of staff member. Previous work under 391 may be required to provide background for experimental program. Faculty sponsor required.
Terms: Aut, Win, Spr, Sum | Units: 1-10 | Repeatable for credit
Instructors: Adams, J. (PI) ; Andriacchi, T. (PI) ; Aquino Shluzas, L. (PI) ; Banerjee, B. (PI) ; Barnett, D. (PI) ; Barry, M. (PI) ; Bazant, M. (PI) ; Beach, D. (PI) ; Beiter, K. (PI) ; Bowman, C. (PI) ; Bradshaw, P. (PI) ; Cai, W. (PI) ; Camarillo, D. (PI) ; Cantwell, B. (PI) ; Cappelli, M. (PI) ; Carryer, J. (PI) ; Carter, D. (PI) ; Chang, F. (PI) ; Chaudhuri, O. (PI) ; Cutkosky, M. (PI) ; Darve, E. (PI) ; Dauskardt, R. (PI) ; DeBra, D. (PI) ; Delp, S. (PI) ; Doorley, S. (PI) ; Durbin, P. (PI) ; Eaton, J. (PI) ; Edelman, J. (PI) ; Edwards, C. (PI) ; Farhat, C. (PI) ; Follmer, S. (PI) ; Gerdes, J. (PI) ; Goldman, S. (PI) ; Goodson, K. (PI) ; Gorodsky, J. (PI) ; Hanson, R. (PI) ; Iaccarino, G. (PI) ; Ihme, M. (PI) ; Ishii, K. (PI) ; Johnston, J. (PI) ; Ju, W. (PI) ; Kelley, D. (PI) ; Kembel, G. (PI) ; Kenny, T. (PI) ; Khatib, O. (PI) ; Kruger, C. (PI) ; Kuhl, E. (PI) ; Leifer, L. (PI) ; Lele, S. (PI) ; Lentink, D. (PI) ; Levenston, M. (PI) ; Lew, A. (PI) ; MacDonald, E. (PI) ; Majumdar, A. (PI) ; Mani, A. (PI) ; Milroy, J. (PI) ; Mitchell, R. (PI) ; Mitiguy, P. (PI) ; Moin, P. (PI) ; Mungal, M. (PI) ; Nelson, D. (PI) ; Niemeyer, G. (PI) ; Ohline, M. (PI) ; Okamura, A. (PI) ; Pinsky, P. (PI) ; Pitsch, H. (PI) ; Prinz, F. (PI) ; Pruitt, B. (PI) ; Puria, S. (PI) ; Rock, S. (PI) ; Roth, B. (PI) ; Salisbury, J. (PI) ; Santiago, J. (PI) ; Shaqfeh, E. (PI) ; Shaughnessy, S. (PI) ; Sheppard, S. (PI) ; Springer, G. (PI) ; Steinert, M. (PI) ; Street, B. (PI) ; Tang, S. (PI) ; Taylor, C. (PI) ; Theeuwes, M. (PI) ; Toye, G. (PI) ; Waldron, K. (PI) ; Wang, H. (PI) ; Zheng, X. (PI)

ME 393: Topics in Biologically Inspired or Human Interactive Robotics

Application of observations from human and animal physiology to robotic systems. Force control of motion including manipulation, haptics, and locomotion. Weekly literature review forum led by student. May be repeated for credit. (Cutkosky, Waldron, Niemeyer)
Last offered: Autumn 2010 | Repeatable for credit

ME 395: Seminar in Solid Mechanics

Required of Ph.D. candidates in solid mechanics. Guest speakers present research topics related to mechanics theory, computational methods, and applications in science and engineering. May be repeated for credit.
Terms: Aut, Win, Spr | Units: 1 | Repeatable for credit

ME 397: Design Theory and Methodology Seminar

What do designers do when they do design? How can their performance be improved? Topics change each quarter. May be repeated for credit.
Terms: Aut, Win, Spr | Units: 1-3 | Repeatable for credit
Instructors: Ju, W. (PI)

ME 399: Fuel Cell Seminar

Interdisciplinary research in engineering, chemistry, and physics. Talks on fundamentals of fuel cells by speakers from Stanford, other academic and research institutions, and industry. The potential to provide high efficiency and zero emissions energy conversion for transportation and electrical power generation.
Last offered: Winter 2005

ME 400: Thesis (Engineer Degree)

Investigation of some engineering problems. Required of Engineer degree candidates
Terms: Aut, Win, Spr, Sum | Units: 2-15 | Repeatable for credit

ME 405: Physics-Based Computational Modeling

This course is not a standard teaching of asymptotic methods as thought in the applied math programs. Nor does it involve such elaborate algebra and analytical derivations. Instead, the class relies on students¿ numerical programing skills and introduces improvements on numerical methods using standard asymptotic and scaling ideas. The main objective of the course is to bring physical insight into numerical programming. Majority of the problems to be explored involve one-¬ and two-dimensional transient partial differential equations. Topics include: 1¿Review of numerical discretization and numerical stability, 2-Implicit versus explicit methods, 3-Introduction to regular and singular perturbation problems, 4¬¿Method of matched asymptotic expansions, 5¬¿Stationary thin interfaces: boundary layers, Debye layers,¿ 6¿Moving thin interfaces: shocks, phase-¬¿interfaces, 7-Reaction-¬diffusion problems, 8-Directional equilibrium and lubrication theory.
Terms: Win | Units: 3

ME 406: Turbulence Physics and Modeling Using Numerical Simulation Data

Prerequisite: consent of instructor.
Terms: Sum | Units: 2

ME 408: Spectral Methods in Computational Physics (CME 322)

Data analysis, spectra and correlations, sampling theorem, nonperiodic data, and windowing; spectral methods for numerical solution of partial differential equations; accuracy and computational cost; fast Fourier transform, Galerkin, collocation, and Tau methods; spectral and pseudospectral methods based on Fourier series and eigenfunctions of singular Sturm-Liouville problems; Chebyshev, Legendre, and Laguerre representations; convergence of eigenfunction expansions; discontinuities and Gibbs phenomenon; aliasing errors and control; efficient implementation of spectral methods; spectral methods for complicated domains; time differencing and numerical stability.
Terms: Win | Units: 3

ME 410A: Introductory Foresight and Technological Innovation

Learn to develop long-range, technology-based innovations (5+ years based on industry). This course offers an intensive, hands-on approach using multiple engineering foresight strategies and tools. Model disruptive opportunities and create far-to-near development plans. Three quarter sequence.
Terms: Aut | Units: 3
Instructors: Cockayne, W. (PI)
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