An Introduction to Fluid Mechanics
Cambridge University Press, 2013.
Also available on Amazon.com.
From the cover: This is a modern and elegant introduction to engineering fluid mechanics enriched with numerous examples, exercises, and applications. The goal of this textbook is to introduce the reader to the analysis of flows using the laws of physics and the language of mathematics. The approach is rigorous, but mindful of the student. Emphasis is on building engagement, competency, and problem-solving confidence that extends beyond a first fluids course.
Publication date: April 2013
520 black/white illus. 40 tables 500 exercises
Dimensions: 253 x 177 mm
Dr. Faith A. Morrison, Professor of Chemical Engineering
Michigan Technological University
1400 Townsend Drive
Houghton, MI 49931-1295
The Web Appendix (Appendix C and Appendix D) is available here.
The compact list of formulas from the inside covers is available here.
A handy sheet of unit conversions is available here.
Errata for the Solution Manual is here.
Errata for An Introduction to Fluid Mechanics
Please submit any errors you find to firstname.lastname@example.org.
Inside Front Cover: The characteristic area in the Fanning Friction Factor denominator is 2*pi*R*L not pi*R^2
Chapter 4Problem 4.14: In the solution manual the density is taken to bee 13 g/cm3 instead of 13.6 g/cm3 as indicated in the text. The correct answer is 720 Pa.
Chapter 7Problem 7.33: Instead of "isoceles" it should say "equilateral"
Problem 8.19: Should read: "Calculate the speed of the ball at impact, both with . . . "
page 675, Figure 8.32. What is plotted is a dimensionlesss pressure. The label is correct for potential flow pressure; for creeping flow pressure, the dimensionless pressure is (p-p_infty)/(\mu, v_\infty/2R).
page 736, Problem 31, line 2, "Figures 8.9 and 8.9" should read "Figures 8.9 and 8.24"
page 736, Problem 38, "1 inch" should be "1.0 inch" to reflect the correct number of significant figures.
page 870, Equation 10.97, p_2-p_1 should be p_1-p_2
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