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31 - 40 of 45 results for: ME

ME 370A: Energy Systems I: Thermodynamics

Thermodynamic analysis of energy systems emphasizing systematic methodology for and application of basic principles to generate quantitative understanding. Exergy, mixtures, reacting systems, phase equilibrium, chemical exergy, and modern computational methods for analysis. Prerequisites: undergraduate engineering thermodynamics and computer skills such as Matlab.
Terms: Aut | Units: 3

ME 378: Tell, Make, Engage: Action Stories for Entrepreneuring

Individual storytelling action and reflective observations gives the course an evolving framework of evaluative methods, from engineering design; socio cognitive psychology; and art that are formed and reformed by collaborative development within the class. Stories attached to an idea, a discovery or starting up something new, are considered through iterative narrative work, storytelling as rapid prototyping and small group challenges. This course will use qualitative and quantitative methods for story engagement, assessment, and class determined research projects with practice exercises, artifacts, short papers and presentations. Graduate and Co-Term students from all programs welcome. Class size limited to 21.
Terms: Aut, Win, Spr | Units: 1-3 | Repeatable for credit
Instructors: Karanian, B. (PI)

ME 390A: Thermofluids, Energy, and Propulsion Research Seminar

Review of work in a particular research program and presentations of other related work.
Terms: Aut, Spr | Units: 1 | Repeatable for credit (up to 99 units total)

ME 391: Engineering Problems

Directed study for graduate engineering students on subjects of mutual interest to student and staff member. May be used to prepare for experimental research during a later quarter under 392. Faculty sponsor required.
Terms: Aut, Win, Spr, Sum | Units: 1-10 | Repeatable for credit

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

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 398: Ph.D. Research Rotation

Directed research experience for first-year Mechanical Engineering Ph.D. students with faculty sponsors. The student is responsible for arranging the faculty sponsor and registering under the faculty sponsor's section number. Course may be repeated up to four times in the first year. A different faculty sponsor must be selected each time.
Terms: Aut, Win, Spr, Sum | Units: 1-4 | Repeatable 4 times (up to 16 units total)

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 403: Quantum Field Theory (QFT) for Engineering Applications (MATSCI 405)

QFT principles for engineering applications in nano and microelectronics. Examples include quantum computing, topological quantum computing, and superconductivity. Focus on solids and quasiparticles. Relation between energy, momentum, and mass. Quantization, Klein Gordon, Dirac, Pauli, and Schrödinger equation. Introduction to topological states and the Majorana condition. Lagrange invariance and the need for gauge fields (electrodynamics).
Terms: Aut | Units: 3

ME 451A: Advanced Fluid Mechanics Multiphase Flows

Single particle and multi-particle fluid flow phenomena, mass, momentum and heat transfer, characteristic time and length scales, non-dimensional groups; collection of dispersed-phase elements: instantaneous and averaged descriptions for multiphase flow, Eulerian-Eulerian and Lagrangian-Eulerian statistical representations, mixture theories; models for drag, heat and mass transfer; dilute to dense two-phase flow, granular flows; computer simulation approaches for multiphase flows, emerging research topics. Prerequisites: graduate level fluid mechanics and engineering mathematics, and undergraduate engineering mechanics and thermodynamics.
Terms: Aut | Units: 3
Instructors: Ihme, M. (PI)
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