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A Brief Introduction to Fluid Mechanics - Donald Young, Bruce R. Munson, Theodore Okiishi

A Brief Introduction to Fluid Mechanics

Media-Kombination
560 Seiten
2003 | 3rd edition
John Wiley and Sons (WIE)
978-0-471-46260-6 (ISBN)
CHF 82,75 inkl. MwSt
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Concise and focused--these are the two guiding principles of Young, Munson, and Okiishi's Third Edition of A Brief Introduction to Fluid Mechanics. The authors clearly present basic analysis techniques and address practical concerns and applications, such as pipe flow, open--channel flow, flow measurement, and drag and lift.
Concise and focused--these are the two guiding principles of Young, Munson, and Okiishi's Third Edition of A Brief Introduction to Fluid Mechanics. The authors clearly present basic analysis techniques and address practical concerns and applications, such as pipe flow, open--channel flow, flow measurement, and drag and lift. Homework problems in every chapter--including open--ended problems, problems based on the CD--ROM videos, laboratory problems, and computer problems--emphasize the practical application of principles. More than 100 worked examples provide detailed solutions to a variety of problems. The Third Edition offers several new features and enhancements, including: * A variety of new simple figures in the margins that will help you visualize the concepts described in the text. * Chapter Summary and Study Guide sections at the end of each chapter that will help you assess your understanding of the material. * Simplified presentation of the Reynolds transport theorem. * New homework problems added to every chapter. * Highlighted key works in each chapter. Experience fluid flow phenomena in action on a new CD--ROM!
The Fluid Mechanics Phenomena CD--ROM packaged with this text presents: 75 short video segments that illustrate various aspects of fluid mechanics 30 extended laboratory--type problems * Actual experimental data for simple experiments in an Excel format 168 review problems.

Donald F. Young, Anson Marston Distinguished Professor Emeritus in Engineering, is a faculty member in the Department of Aerospace Engineering and Engineering Mechanics at Iowa State University. Dr. young received his B.S. degree in mechanical engineering, his M.S. and Ph.D. degrees in theoretical and applied mechanics from Iowa State, and has taught both undergraduate and graduate courses in fluid mechanics for many years . In addition to being named a Distinguished Professor in the College of Engineering, Dr. Young has also received the Standard Oil Foundation Outstanding Teacher Award and the Iowa State University Alumni Association Faculty Citation. He as been engaged in fluid mechanics research for more than 45 years, with special interests in similitude and modeling and the interdisciplinary field of biomedical fluid mechanics. Dr. Young has contributed to many technical publications and is the author or coauthor of two textbooks on applied mechanics. He is a fellow of the American Society of Mechanical Engineers. Bruce R. Munson, Professor Emeritus of Engineering Mechanics, has been a faculty member at Iowa State university since 1974. He received his B.S. and M.S. degrees from Purdue university and his Ph.D degree from the Aerospace Engineering and Mechanics Department of the university of Minnesota in 1970. From 1970 to 1974, Dr.Munson was on the mechanical engineering faculty of Duke University. From 1964 to 1966, he worked as an engineer in the jet engine fuel control department of Bendix Aerospace Corporation, South Bend, Indiana. Dr. Munson's main professional activity has been in the area of fluid mechanics education and research. He has been responsible for the development of many fluid mechanics courses for studies in civil engineering, mechanical engineering, engineering science, and agricultural engineering and is the recipient of an Iowa State university Superior engineering Teacher Award and the Iowa State University Alumni Association Faculty Citation. He has authored and coauthored many theoretical and experimental technical papers on hydrodynamic stability, low Reynolds number flow, secondary flow, and the applications of viscous incompressible flow. He is a member of the American Society for Engineering Engineers, The American Physical Society, and the American society for Engineering Education. Theodore H. Okiishi, Associate dean of Engineering and past Chair of Mechanical Engineering at Iowa State university, has taught fluid mechanics courses there since 1967. he received his undergraduate and graduate degrees at Iowa State. From 1965 to 1967, Dr. Okiishi served as a U.S. Army officer with duty assignments at the National Aeronautics and Space Administration Lewis Research Center, Cleveland, Ohio, where he participated in rocket nozzle heat transfer research, and at the Combined Intelligence Center, Saigon, Republic of south Vietnam, where he studied seasonal river flooding problems. Professor Okiishi is active in research on turbomachinary fluid dynamic. He and his graduate students and other colleagues have written a number of journal articles based on their studies. Some of these project have involved significant collaboration with government and industrial laboratory researchers with one technical paper winning the ASME Melville medal. Dr. Okiishi has received several awards for teaching. He has developed undergraduate and graduate courses in classical fluid dynamics as well as the fluid dynamics of turbomachines. He is a licensed professional engineer. His technical society activities include having been chair of the board of directors of The American Society of Mechanical Engineers (ASME) International Gas turbine Institute. he is a fellow member of the ASME and the technical editor of the Journal of Turbomachinery.

1. Introduction. 2. Fluid Statics. 3. Elementary Fluid Dynamics The Bernoulli Equation. 4. Fluid Kinematics. 5. Finite Control Volume Analysis. 6. Differential Analysis of Fluid Flow. 7. Similitude, Dimensional Analysis, and Modeling. 8. Viscous Flow in Pipes. 9. Flow over Immersed Bodies. 10. Open--Channel Flow. 11. Turbomachines. Appendix A. Unit Conversion Tables. Appendix B. Physical Properties of Fluids. Appendix C. Properties of the U.S. Standard Atmosphere. Appendix D. Reynolds Transport Theorem. Answers. Index.

Erscheint lt. Verlag 10.10.2003
Zusatzinfo Illustrations
Verlagsort New York
Sprache englisch
Maße 194 x 241 mm
Gewicht 1049 g
Einbandart gebunden
Themenwelt Naturwissenschaften Physik / Astronomie Strömungsmechanik
Technik Maschinenbau
ISBN-10 0-471-46260-8 / 0471462608
ISBN-13 978-0-471-46260-6 / 9780471462606
Zustand Neuware
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