Foundations of MEMS 2nd Edition
For courses in Micro-Electro-Mechanical Systems (MEMS) taken by advanced undergraduate students, beginning graduate students, and professionals.
Foundations of MEMS is an entry-level text designed to systematically teach the specifics of MEMS to an interdisciplinary audience. Liu discusses designs, materials, and fabrication issues related to the MEMS field by employing concepts from both the electrical and mechanical engineering domains and by incorporating evolving microfabrication technology — all in a time-efficient and methodical manner. A wealth of examples and problems solidify students’ understanding of abstract concepts and provide ample opportunities for practicing critical thinking.
Out of stock
This SI editions has the same content as Bedford’s Engineering Mechanics: Statics, 5e.
About the book. This text provides a complete coverage of the basic principles of heat transfer and a broad range of applications. Heat and Mass Transfer: Fundamentals and Applications by Yunus Cengel and Afshin Ghajar provide the perfect blend of fundamentals and applications. The text provides a highly intuitive and practical understanding of the material by emphasizing the physics and the underlying physical phenomena involved. This text covers the standard topics of heat transfer with an emphasis on physics and real-world every day applications, while de-emphasizing the intimidating mathematical aspects. This approach is designed to take advantage of students’ intuition, making the learning process easier and more engaging. This text includes: more than 1,000 illustrations with a sensational visual appeal that highlight its key learning features; and, approximately 2,000 homework problems in design, computer, essay, and laboratory-type problems.
John Wiley Sons, Inc. is proud to announce an important new series of textbooks The MIT Series in Materials Science and Engineering. In response to the growing economic and technological importance of polymers, ceramics, and semi-conductors, many materials science and engineering departments are changing and expanding their curricula. The advent of new courses calls for the development of new textbooks that teach the principles of materials science and engineering as they apply to all the classes of materials. The MIT Series in Materials Science and Engineering is designed to fill the needs of this changing curriculum. Based on the undergraduate curriculum of the MIT Department of Materials Science and Engineering, the series will include textbooks for the core courses in the field as well as texts for courses in specific material classes. The first three textbooks in the series will be: Thermodynamics of Materials, Vol. I, by David Ragone (0-471-30885-4) Thermodynamics of Materials, VoL. II, by David Ragone (0-471-30886-2) Physical Ceramics: Principles for Ceramics Science and Engineering, by Yet-Ming Chiang, Dunbar Birnie III, and W. David Kingery (0-471-59873-9)
About the Author
About the Author David V. Ragone received his S. B., S. M., and Sc.D. degrees in metallurgical engineering from MIT. He taught undergraduate and graduate courses in thermodynamics at the University of Michigan in Ann Arbor from 1953 to 1962. From 1962 to 1967, as chairman of the materials department and assistant director of the Hopkins laboratory at the General Atomic Division of General Dynamics, he directed research on materials for advanced, high-temperature, gas-cooled nuclear reactors. He then served as Alcoa Professor of Metallurgy at the Carnegie- Mellon University, where he was also Associate Dean of Urban and Public Affairs. In 1970, he was named dean of the Thayer School at Dartmouth, and returned to the University of Michigan as Dean of Engineering in 1972. In 1980, he was named President of the Case Western University, where he served until 1987. He returned to teaching undergraduate courses in thermodynamics and the physical chemistry of materials at MIT in 1988, and began writing texts shortly thereafter. In addition to his appointment at MIT, David Ragone is a partner in Ampersand Ventures, a firm whose focus is on ventures in specialty materials and chemicals. He has also served as a member of the National Science Board and as a director of more than a dozen public and private companies. His professional society memberships include ASM, AIME, and ACS.