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241 - 250 of 298 results for: ME

ME 379: Fail Faster

Fail Faster will dive deeply into one of design thinking's key tenets: Fail early, fail often. Students will explore ways to: [1] become comfortable with uncertainty, [2] develop tools to navigate situations of failure, and [3] learn to turn failures into opportunities. This exercised-based workshop will examine the physiological impact of failure and practice the psychological traits and the power of resilience through hands-on activities. Participants will acquire techniques to help them navigate, bounce back, grow and even flourish in the face of their failures.
Last offered: Spring 2015

ME 381: Orthopaedic Bioengineering (BIOE 381)

Engineering approaches applied to the musculoskeletal system in the context of surgical and medical care. Fundamental anatomy and physiology. Material and structural characteristics of hard and soft connective tissues and organ systems, and the role of mechanics in normal development and pathogenesis. Engineering methods used in the evaluation and planning of orthopaedic procedures, surgery, and devices.
Terms: Spr | Units: 3

ME 385: Tissue Engineering Lab

Hands-on experience in the fabrication of living engineered tissues. Techniques include sterile technique, culture of mammalian cells, creation of cell-seeded scaffolds, and the effects of mechanical loading on the metabolism of living engineered tissues. Theory, background, and practical demonstration for each technique. Lab.
Last offered: Winter 2008

ME 386: Neuromuscular Biomechanics (BIOE 386)

The interplay between mechanics and neural control of movement. State of the art assessment through a review of classic and recent journal articles. Emphasis is on the application of dynamics and control to the design of assistive technology for persons with movement disorders.

ME 387: Soft Tissue Mechanics

Structure/function relationships and mechanical properties of soft tissues, including nonlinear elasticity, viscoelasticity, and poroelasticity.
Last offered: Winter 2011

ME 388: Transport Modeling for Biological Systems

Introduction to electric fields, fluid flows, transport phenomena and their application to biological systems. Maxwell's equations, electrostatics, electro-chemical-mechanical driving forces in physiological systems. Ionic diffusion in electrolytes and membrane transport. Fluid and solid continua theory for porous, hydrated biological tissues. Applications include ionic and molecular transport in tissues and cells, electrophoresis, electromechanical and physicochemical interactions in cells and the extracellular matrix of connective tissue.

ME 389: Biomechanical Research Symposium

Guest speakers present contemporary research on experimental and theoretical aspects of biomechanical engineering and bioengineering. May be repeated for credit.
Terms: Spr | Units: 1 | Repeatable for credit

ME 390: Thermosciences Research Project Seminar

Review of work in a particular research program and presentations of other related work.
Last offered: Autumn 2006 | Repeatable for credit

ME 390A: High Temperature Gasdynamics Laboratory Research Project 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
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) ; Beiker, S. (PI) ; Beiter, K. (PI) ; Both, T. (PI) ; Bowman, C. (PI) ; Bradshaw, P. (PI) ; Britos Cavagnaro, L. (PI) ; Burnett, W. (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) ; Cuellar, M. (PI) ; Cutkosky, M. (PI) ; Dabiri, J. (PI) ; Darve, E. (PI) ; Dauskardt, R. (PI) ; DeBra, D. (PI) ; Delp, S. (PI) ; Doorley, S. (PI) ; Eaton, J. (PI) ; Edelman, J. (PI) ; Edwards, C. (PI) ; Evans, D. (PI) ; Farhat, C. (PI) ; Feiber, J. (PI) ; Fenton, P. (PI) ; Fletcher, A. (PI) ; Follmer, S. (PI) ; Gerdes, J. (PI) ; Goldman, S. (PI) ; Goodson, K. (PI) ; Gorodsky, J. (PI) ; Habif, S. (PI) ; Hanson, R. (PI) ; Hawthorne, G. (PI) ; Hustein, J. (PI) ; Iaccarino, G. (PI) ; Ihme, M. (PI) ; Ishii, K. (PI) ; Johnston, J. (PI) ; Ju, W. (PI) ; Kahn, N. (PI) ; Katz, B. (PI) ; Kelley, D. (PI) ; Kembel, G. (PI) ; Kenny, T. (PI) ; Khatib, O. (PI) ; Kitchen, S. (PI) ; Kohn, M. (PI) ; Kruger, C. (PI) ; Kuhl, E. (PI) ; Latombe, J. (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) ; Murphy-Reinherz, N. (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) ; Roumani, N. (PI) ; Salisbury, J. (PI) ; Santiago, J. (PI) ; Sather, A. (PI) ; Schox, J. (PI) ; Scott, W. (PI) ; Shaqfeh, E. (PI) ; Shaughnessy, S. (PI) ; Sheppard, S. (PI) ; Somen, D. (PI) ; Springer, G. (PI) ; Steele, C. (PI) ; Steinert, M. (PI) ; Street, B. (PI) ; Sturtz, M. (PI) ; Tang, S. (PI) ; Taylor, C. (PI) ; Theeuwes, M. (PI) ; Torii, R. (PI) ; Toye, G. (PI) ; Utley, J. (PI) ; Waldron, K. (PI) ; Wang, H. (PI) ; Zheng, X. (PI)
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