2019-2020 2020-2021 2021-2022 2022-2023 2023-2024
Browse
by subject...
    Schedule
view...
 

251 - 260 of 291 results for: ME

ME 406: Turbulence Physics and Modeling Using Numerical Simulation Data

Prerequisite: consent of instructor.
Terms: Sum | Units: 2
Instructors: Moin, P. (PI)

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.
Last offered: Winter 2015

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)

ME 410B: Advanced Foresight and Technological Innovation

Continuation of ME410A. Students will continue developing their invention, integrate additional engineering foresight, and develop an intrinsic innovation mindset. Ongoing discussion of industry examples and contemporary events demonstrate foresight principals and engineering leadership in action.
Terms: Win | Units: 1
Instructors: Cockayne, W. (PI)

ME 410C: Advanced Foresight and Technological Innovation

Continuation of ME410B. Students will continue developing their invention, integrate additional engineering foresight, and develop an intrinsic innovation mindset. Ongoing discussion of industry examples and contemporary events demonstrate foresight principals and engineering leadership in action.
Terms: Spr | Units: 1
Instructors: Cockayne, W. (PI)

ME 411: Advanced Topics in Computational Solid Mechanics

Discussion of the use of computational simulation methods for analyzing and optimizing production processes and for developing new products, based on real industrial applications in the metal forming industry. Brief review of linear and nonlinear continuum mechanics and the use of finite element methods to model solid mechanics problems, constitutive relations for metals, coupled thermo-elasto-plastic (viscoplastic) problems, modeling metal productions processes: bulk metal forming processes using rigid/viscoplastic material models, application examples: hot rolling of plates and the Mannesmann piercing processes and modeling the service behavior of steel pipes. Prerequisites: ME 338A, ME 335A,B,C, or consent of instructor.
Last offered: Winter 2010

ME 412: Engineering Functional Analysis and Finite Elements (CME 356)

Concepts in functional analysis to understand models and methods used in simulation and design. Topology, measure, and integration theory to introduce Sobolev spaces. Convergence analysis of finite elements for the generalized Poisson problem. Extensions to convection-diffusion-reaction equations and elasticity. Upwinding. Mixed methods and LBB conditions. Analysis of nonlinear and evolution problems. Prerequisites: 335A,B, CME 200, CME 204, or consent of instructor. Recommended: 333, MATH 171.
Last offered: Winter 2015

ME 413: Quantum Confinement Structures: Physics and Fabrication

Quantum mechanics principles and the thermodynamics of confinement structures. Focus is on potential applications such as solar cells and catalysis. Student presentations. Lab demonstrations. Prerequisite: background in quantum mechanics and statistical thermodynamics.
Last offered: Spring 2008

ME 414: Solid State Physics for Mechanical Engineering Experiments

Introductory overview of principles of statistical mechanics, quantum mechanics and solid-state physics. Provides graduate Mechanical Engineering students with the understanding needed to work on devices or technologies which rely on solid-state physics. (Alternate years, not offered summer 2012).
Last offered: Summer 2015

ME 417: Total Product Integration Engineering

For students aspiring to be product development executives and leaders in research and education. Advanced methods and tools beyond the material covered in ME 317: quality design across global supply chain, design for robustness, product development risk management, Monte Carlo simulation and product financial analysis, and decision analysis. Small teams or individuals conduct a practical project that produces a case study or enhancement to existing development methods and tools. Enrollment limited to 12. Prerequisites: 317A, B
Terms: Aut | Units: 4 | Repeatable 3 times (up to 12 units total)
Instructors: Beiter, K. (PI)
Filter Results:
term offered
updating results...
teaching presence
updating results...
number of units
updating results...
time offered
updating results...
days
updating results...
UG Requirements (GERs)
updating results...
component
updating results...
career
updating results...
© Stanford University | Terms of Use | Copyright Complaints