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21 - 30 of 195 results for: ME

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ME 152: Material Behaviors and Failure Prediction

Exploration of mechanical behaviors of natural and engineered materials. Topics include anisotropic, elastoplastic and viscoelastic behaviors, fatigue and multiaxial failure criteria. Applications to biological materials and materials with natural or induced microstructures (e.g., through additive manufacturing). Prerequisite: ME80 or CEE101A.
Terms: Win | Units: 3
Instructors: Cai, W. (PI) ; Peraza, M. (TA)

ME 161: Dynamic Systems, Vibrations and Control

Modeling, analysis, and measurement of mechanical and electromechanical dynamic systems. Closed form solutions of ordinary differential equations governing the behavior of single and multiple-degree-of-freedom systems. Stability, forcing, resonance, and control system design. Prerequisites: Ordinary differential equations ( CME 102 or MATH 53), linear algebra ( CME 104 or MATH 53) and dynamics (E 15) are recommended.
Terms: Aut | Units: 3 | UG Reqs: GER:DB-EngrAppSci
Instructors: Mitiguy, P. (PI) ; Adeleke, A. (TA) ; Phatak, A. (TA) ; Rodriguez Ramirez, R. (TA)

ME 170A: Mechanical Engineering Design- Integrating Context with Engineering

First course of two-quarter capstone sequence. Working in project teams, design and develop an engineering system addressing a real-world problem in theme area of pressing societal need. Learn and utilize industry development process: first quarter focuses on establishing requirements and narrowing to top concept. Second quarter emphasizes implementation and testing. Learn and apply professional communication skills, assess ethics. Students must also enroll in ME170b; completion of 170b required to earn grade in 170a. Course sequence fulfills ME WIM requirement. Course open to Biomechanics students for Capstone credit. Co- or Prerequisites: ENGR15, ME80, ME104, ME131 (ME only), ME123 (ME Only). (Cardinal Course certified by the Haas Center).
Terms: Aut | Units: 4

ME 170B: Mechanical Engineering Design: Integrating Context with Engineering

Second course of two-quarter capstone sequence. Working in project teams, design and develop an engineering system addressing a real-world problem in theme area of pressing societal need. Learn and utilize industry development process: first quarter focuses on establishing requirements and narrowing to top concept. Second quarter emphasizes implementation and testing. Learn and apply professional communication skills, assess ethics. Students must have completed ME170a; completion of 170b required to earn grade in 170a. Course sequence fulfills ME WIM requirement. Course open to Biomechanics students for Capstone credit. Co- or Prerequisites: ENGR15, ME80, ME104, ME131 (ME only), ME123 (ME only). (Cardinal Course certified by the Haas Center).
Terms: Win | Units: 4

ME 191: Engineering Problems and Experimental Investigation

Directed study and research for undergraduates on a subject of mutual interest to student and staff member. Student must find faculty sponsor and have approval of adviser.
Terms: Aut, Win, Spr, Sum | Units: 1-5 | Repeatable for credit

ME 191H: Honors Research

Student must find faculty honors adviser and apply for admission to the honors program.nn (Staff)
Terms: Aut, Win, Spr, Sum | Units: 1-5 | Repeatable for credit

ME 195A: Food, Design & Technology

Food has been a great source of inspiration for many entrepreneurs and designers. In Silicon Valley, the number of food design solutions has increased tremendously. The goal of this course is to expose students to the landscape of food innovation and design. We will look at food in two different lenses--design and technology. In the first half of the course, students will learn the design thinking process through food. In the next half, students will explore various applications of the design thinking methodology in the real world. Students will do so by actively asking questions, participating in discussions, and engaging in hands-on activities led by industry leaders and experts. Weekly readings will be assigned.
Last offered: Spring 2022

ME 199A: Practical Training

For undergraduate students. Educational opportunities in high technology research and development labs in industry. Students engage in internship work and integrate that work into their academic program. Following internship work, students complete a research report outlining work activity, problems investigated, key results, and follow-up projects they expect to perform. Meets the requirements for curricular practical training for students on F-1 visas. Student is responsible for arranging own internship/employment and faculty sponsorship. Register under faculty sponsor's section number. All paperwork must be completed by student and faculty sponsor, as the Student Services Office does not sponsor CPT. Students are allowed only two quarters of CPT per degree program. Course may be repeated twice.
Terms: Sum | Units: 1 | Repeatable 3 times (up to 3 units total)

ME 203: Design and Manufacturing

ME203 is intended for any graduate student, from any field of study, who may want the opportunity to design and prototype a physical project of meaning to them. Undergraduate mechanical engineering and product design students should register for ME103. Students are asked to discover a product with meaning to them; develop a point of view which motivates a redesign of that product; manufacture a series of models, multiple candidates, including sketches, product use stories, rapid prototypes, CAD documents, manufacturing test models, and finally a customer ready prototype. Each student will physically create their product using Product Realization Lab resources, and also redesign their product for scaled manufacturing to develop a knowledge of manufacturing processes, design guidelines, materials choices, and the opportunities those processes provide. The student's body of work will be presented in a large public setting, Meet the Makers, through an inspirational portfolio which shares and reflects on their product realization adventure.
Terms: Aut, Win, Spr | Units: 4

ME 206A: Design for Extreme Affordability

Design for Extreme Affordability (fondly called Extreme) is a two-quarter course offered by the d.school through the School of Engineering and the Graduate School of Business. This multidisciplinary project-based experience creates an enabling environment in which students learn to design products and services that will change the lives of the world's poorest citizens. Students work directly with course partners on real world problems, the culmination of which is actual implementation and real impact. Topics include design thinking, product and service design, rapid prototype engineering and testing, business modelling, social entrepreneurship, team dynamics, impact measurement, operations planning and ethics. Possibility to travel overseas during spring break. Previous projects include d.light, Driptech, Earthenable, Embrace, the Lotus Pump, MiracleBrace, Noora Health and Sanku. Periodic design reviews; Final course presentation and expo; industry and adviser interaction. Limited enrollment via application. Must sign up for ME206A and ME206B. See extreme.stanford.edu
Terms: Win | Units: 4
Instructors: Coulson, S. (PI) ; Yeturu, M. (SI)
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