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Viscous Fluid Flow https://www.mheducation.com/cover-images/Jpeg_400-high/0073529311.jpeg 4 2022 9780073529318 Since 1974, Viscous Fluid Flow has been known for its academic rigor and effectiveness at serving as a convenient “one-stop shop” for those interested in expanding their knowledge of the rich and evolving field of fluid mechanics. The fourth edition contains important updates and over 200 new references while maintaining the tradition of fulfilling the role of a senior or first-year graduate textbook on viscous motion with a well-balanced mix of engineering applications. Students are expected to understand the basic foundations of fluid mechanics, vector calculus, partial differential equations, and rudimentary numerical analysis. The material can be selectively presented in a one-semester course or, with more extensive coverage, in two (or even three) semesters.
09780073529318
Viscous Fluid Flow

Viscous Fluid Flow, 4th Edition

ISBN10: 0073529311 | ISBN13: 9780073529318
By Frank White, Joseph Majdalani
© 2022

Purchase Options:

* The estimated amount of time this product will be on the market is based on a number of factors, including faculty input to instructional design and the prior revision cycle and updates to academic research-which typically results in a revision cycle ranging from every two to four years for this product. Pricing subject to change at any time.

Purchase Options:

* The estimated amount of time this product will be on the market is based on a number of factors, including faculty input to instructional design and the prior revision cycle and updates to academic research-which typically results in a revision cycle ranging from every two to four years for this product. Pricing subject to change at any time.

Additional Product Information:

Since 1974, Viscous Fluid Flow has been known for its academic rigor and effectiveness at serving as a convenient “one-stop shop” for those interested in expanding their knowledge of the rich and evolving field of fluid mechanics. The fourth edition contains important updates and over 200 new references while maintaining the tradition of fulfilling the role of a senior or first-year graduate textbook on viscous motion with a well-balanced mix of engineering applications. Students are expected to understand the basic foundations of fluid mechanics, vector calculus, partial differential equations, and rudimentary numerical analysis. The material can be selectively presented in a one-semester course or, with more extensive coverage, in two (or even three) semesters.

1 Preliminary Concepts
2 Fundamental Equations of Compressible Viscous Flow
3 Solutions of The Newtonian Viscous-Flow Equations
4 Laminar Boundary Layers
5 The Stability of Laminar Flows
6 Incompressible Turbulent Mean Flow
7 Compressible-Boundary-Layer Flow
Connect

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About the Author

Frank White

Frank M. White is Professor Emeritus of Mechanical and Ocean Engineering at the University of Rhode Island. He studied at Georgia Tech and M.I.T. In 1966 he helped found, at URI, the first department of ocean engineering in the country. Known primarily as a teacher and writer, he has received eight teaching awards and has written four textbooks on fluid mechanics and heat transfer. From 1979 to 1990 he was editor-in-chief of the ASME Journal of Fluids Engineering and then served from 1991 to 1997 as chairman of the ASME Board of Editors and of the Publications Committee. He is a Fellow of ASME and in 1991 received the ASME Fluids Engineering Award.

Joseph Majdalani

Joseph (“Joe”) Majdalani is the Hugh and Loeda Francis Chair of Excellence and Professor of Aerospace Engineering at Auburn University. A native of Beirut, Lebanon, he pursued his undergraduate studies in mechanical engineering at the American University of Beirut, where he received a B.E. degree in 1989. He then attended the University of Utah, completing additional M.S. and Ph.D. degrees in 1991 and 1995.  He began teaching mechanical engineering at Marquette University in 1997 and moved to the University of Tennessee in 2003, serving consecutively as Jack D. Whitfield Professor of High Speed Flows and Arnold Chair of Excellence in Advanced Propulsion within the Department of Mechanical, Aerospace, and Biomedical Engineering. In 2013, he joined Auburn University as the Auburn Alumni Engineering Council Endowed Professor and Department Chair of Aerospace Engineering.

Dr. Majdalani is a Fellow of ASME, Associate Fellow of AIAA, and has received numerous recognitions for his teaching, research, and service. These include: the Auburn University Outstanding Graduate Mentor Award in 2021, the ASEE/AIAA J. Leland Atwood Educator Award in 2018, the Abe M. Zarem Educator Award in 2013 and, again, in 2018, the Solid Rockets Best Paper Award (thrice recipient), the AIAA Sustained Service Award in 2016, the Aerospace Engineering Outstanding Faculty Member in 2015, the Konrad Dannenberg Educator of the Year in 2014, the SAE Ralph R. Teetor Educational Award in 2007, the Hap Arnold Award in 2007, the NSF CAREER Award in 2002, Marquette’s Outstanding Teaching Award in 1998–2000 (twice recipient), and Marquette’s College of Engineering Research Award in 1997–1998.

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