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Instruction Manual Fluid Mechanics
Written in a clear and simple style, this textbook on fluid mechanics gives equal emphasis to both geophysical and engineering fluid mechanics. For physicists, it contains chapters on geophysical fluid mechanics and gravity waves; for engineers, it has chapters on aerodynamics and compressible flow. Of common interest are chapters on governing equations, laminar flows, boundary layers, instability, and turbulence. This book also presents topics of recent interest, such as deterministic chaos, double-diffusive instability and soliton, and discusses several interesting phenomena such as dynamics of sports balls, locomotion of fish and birds, and sailing again the wind.
Key Features
* Gives equal treatment to topics in both engineering and geophysical fluid dynamics
* Suitable as an intermediate or graduate course textbook for students in their senior year or above
* Treats topics of recent interest such as deterministic chaos, double diffusive instability and soliton
* Extensively illustrated
* Contains fully worked examples in each chapter as well as end-of-chapter problems
* An instructor's manual is available
Key Features
* Gives equal treatment to topics in both engineering and geophysical fluid dynamics
* Suitable as an intermediate or graduate course textbook for students in their senior year or above
* Treats topics of recent interest such as deterministic chaos, double diffusive instability and soliton
* Extensively illustrated
* Contains fully worked examples in each chapter as well as end-of-chapter problems
* An instructor's manual is available
83 pages, Paperback
First published September 1, 1990
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Displaying 1 - 4 of 4 reviews
December 8, 2025
Caveats to this review: I only read chapters 2, 3, 4, 5, 7, 8, 11, 12, & 14 as was required for my grad school advanced fluids class. The homework assignments for this class were composed entirely of problems from the exercises section at the end of each of these chapters, so my thoughts on the book are also based on my experience with these problems. This book was clearly written with the expectation that the audience has a very strong foundation in linear algebra, multivariable calculus, and differential equations. I was quite rusty with these skills as it has been about 6 years since I took these classes in undergrad; and even though this was my fourth semester in grad school, my previous grad classes have not been as math intensive. The book also uses a lot of Einstein summation convention which I did not use in undergrad.
This book may be a useful reference for experienced fluid dynamicists. However, as a learning tool, I found it to be one of the worst textbooks I have ever read. The book is generally lacking in examples and visual representations of concepts. It skips countless steps and draws conclusions that are not sufficiently well supported for a work of technical writing, in my opinion. The writing feels clunky and disorganized, lacking a clear logical flow in many sections. The exercise problems frequently refer to terms that have not been previously introduced in the textbook (I checked because I have the pdf version). In some cases both within the contents of the chapters and between the contents and the exercises, different names are used for the same concepts without any explanation (examples: taylor microscale / taylor time scale & power spectrum / energy spectrum). I had to rely heavily on other resources including some of my undergrad textbooks to explain the same concepts this textbook attempted to convey. In summary: My opinion of this book is potentially biased by my rusty math skills, yet even when trying to not consider my own struggles with content, I found it to be an exceptionally poor piece of technical writing.
This book may be a useful reference for experienced fluid dynamicists. However, as a learning tool, I found it to be one of the worst textbooks I have ever read. The book is generally lacking in examples and visual representations of concepts. It skips countless steps and draws conclusions that are not sufficiently well supported for a work of technical writing, in my opinion. The writing feels clunky and disorganized, lacking a clear logical flow in many sections. The exercise problems frequently refer to terms that have not been previously introduced in the textbook (I checked because I have the pdf version). In some cases both within the contents of the chapters and between the contents and the exercises, different names are used for the same concepts without any explanation (examples: taylor microscale / taylor time scale & power spectrum / energy spectrum). I had to rely heavily on other resources including some of my undergrad textbooks to explain the same concepts this textbook attempted to convey. In summary: My opinion of this book is potentially biased by my rusty math skills, yet even when trying to not consider my own struggles with content, I found it to be an exceptionally poor piece of technical writing.
October 19, 2025
This book is super lazy with derivations
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April 19, 2012This is a very physical book. Accompany it with Munson's Fluid mechanics for more examples and you will be in good shape.
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March 3, 2014i feel happy
This entire review has been hidden because of spoilers.
Displaying 1 - 4 of 4 reviews