Fluid Mechanics White 8th Edition Pdf

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 About Fluid Mechanics White 8th Edition Pdf Book

White’s Fluid Mechanics offers students a clear and comprehensive presentation of the material that demonstrates the progression from physical concepts to engineering applications and helps students quickly see the practical importance of fluid mechanics fundamentals. The wide variety of topics gives instructors many options for their course and is a useful resource to students long after graduation. The book’s unique problem-solving approach is presented at the start of the book and carefully integrated in all examples. Students can progress from general ones to those involving design, multiple steps and computer usage.

McGraw-Hill’s Connect, is also available as an optional, add on item. Connect is the only integrated learning system that empowers students by continuously adapting to deliver precisely what they need, when they need it, how they need it, so that class time is more effective. Connect allows the professor to assign homework, quizzes, and tests easily and automatically grades and records the scores of the student’s work. Problems are randomized to prevent sharing of answers an may also have a “multi-step solution” which helps move the students’ learning along if they experience difficulty.

  1. Title Page
  2. Copyright Page
  3. About the Author
  4. Contents
  5. Preface
  6. Chapter 1 Introduction
  7. 1.1 Preliminary Remarks
  8. 1.2 The Concept of a Fluid
  9. 1.3 The Fluid as a Continuum
  10. 1.4 Dimensions and Units
  11. 1.5 Properties of the Velocity Field
  12. 1.6 Thermodynamic Properties of a Fluid
  13. 1.7 Viscosity and Other Secondary Properties
  14. 1.8 Basic Flow Analysis Techniques
  15. 1.9 Flow Patterns: Streamlines, Streaklines, and Pathlines
  16. 1.10 The Fundamentals of Engineering (FE) Examination
  17. 1.11 The History of Fluid Mechanics
  18. Summary
  19. Problems
  20. Fundamentals of Engineering Exam Problems
  21. Comprehensive Problems
  22. References
  23. Chapter 2 Pressure Distribution in a Fluid
  24. 2.1 Pressure and Pressure Gradient
  25. 2.2 Equilibrium of a Fluid Element
  26. 2.3 Hydrostatic Pressure Distributions
  27. 2.4 Application to Manometry
  28. 2.5 Hydrostatic Forces on Plane Surfaces
  29. 2.6 Hydrostatic Forces on Curved Surfaces
  30. 2.7 Hydrostatic Forces in Layered Fluids
  31. 2.8 Buoyancy and Stability
  32. 2.9 Pressure Distribution in Rigid-Body Motion
  33. 2.10 Pressure Measurement
  34. Summary
  35. Problems
  36. Word Problems
  37. Fundamentals of Engineering Exam Problems
  38. Comprehensive Problems
  39. Design Projects
  40. References
  41. Chapter 3 Integral Relations for a Control Volume
  42. 3.1 Basic Physical Laws of Fluid Mechanics
  43. 3.2 The Reynolds Transport Theorem
  44. 3.3 Conservation of Mass
  45. 3.4 The Linear Momentum Equation
  46. 3.5 Frictionless Flow: The Bernoulli Equation
  47. 3.6 The Angular Momentum Theorem
  48. 3.7 The Energy Equation
  49. Summary
  50. Problems
  51. Word Problems
  52. Fundamentals of Engineering Exam Problems
  53. Comprehensive Problems
  54. Design Project
  55. References
  56. Chapter 4 Differential Relations for Fluid Flow
  57. 4.1 The Acceleration Field of a Fluid
  58. 4.2 The Differential Equation of Mass Conservation
  59. 4.3 The Differential Equation of Linear Momentum
  60. 4.4 The Differential Equation of Angular Momentum
  61. 4.5 The Differential Equation of Energy
  62. 4.6 Boundary Conditions for the Basic Equations
  63. 4.7 The Stream Function
  64. 4.8 Vorticity and Irrotationality
  65. 4.9 Frictionless Irrotational Flows
  66. 4.10 Some Illustrative Incompressible Viscous Flows
  67. Summary
  68. Problems
  69. Word Problems
  70. Fundamentals of Engineering Exam Problems
  71. Comprehensive Problems
  72. References
  73. Chapter 5 Dimensional Analysis and Similarity
  74. 5.1 Introduction
  75. 5.2 The Principle of Dimensional Homogeneity
  76. 5.3 The Pi Theorem
  77. 5.4 Nondimensionalization of the Basic Equations
  78. 5.5 Modeling and Similarity
  79. Summary
  80. Problems
  81. Word Problems
  82. Fundamentals of Engineering Exam Problems
  83. Comprehensive Problems
  84. Design Projects
  85. References
  86. Chapter 6 Viscous Flow in Ducts
  87. 6.1 Reynolds Number Regimes
  88. 6.2 Internal versus External Viscous Flows
  89. 6.3 Head Loss-The Friction Factor
  90. 6.4 Laminar Fully Developed Pipe Flow
  91. 6.5 Turbulence Modeling
  92. 6.6 Turbulent Pipe Flow
  93. 6.7 Four Types of Pipe Flow Problems
  94. 6.8 Flow in Noncircular Ducts
  95. 6.9 Minor or Local Losses in Pipe Systems
  96. 6.10 Multiple-Pipe Systems
  97. 6.11 Experimental Duct Flows: Diffuser Performance
  98. 6.12 Fluid Meters
  99. Summary
  100. Problems
  101. Word Problems
  102. Fundamentals of Engineering Exam Problems
  103. Comprehensive Problems
  104. Design Projects
  105. References
  106. Chapter 7 Flow Past Immersed Bodies
  107. 7.1 Reynolds Number and Geometry Effects
  108. 7.2 Momentum Integral Estimates
  109. 7.3 The Boundary Layer Equations
  110. 7.4 The Flat-Plate Boundary Layer
  111. 7.5 Boundary Layers with Pressure Gradient
  112. 7.6 Experimental External Flows
  113. Summary
  114. Problems
  115. Word Problems
  116. Fundamentals of Engineering Exam Problems
  117. Comprehensive Problems
  118. Design Project
  119. References
  120. Chapter 8 Potential Flow and Computational Fluid Dynamics
  121. 8.1 Introduction and Review
  122. 8.2 Elementary Plane Flow Solutions
  123. 8.3 Superposition of Plane Flow Solutions
  124. 8.4 Plane Flow Past Closed-Body Shapes
  125. 8.5 Other Plane Potential Flows
  126. 8.6 Images
  127. 8.7 Airfoil Theory
  128. 8.8 Axisymmetric Potential Flow
  129. 8.9 Numerical Analysis
  130. Summary
  131. Problems
  132. Word Problems
  133. Comprehensive Problems
  134. Design Projects
  135. References
  136. Chapter 9 Compressible Flow
  137. 9.1 Introduction: Review of Thermodynamics
  138. 9.2 The Speed of Sound
  139. 9.3 Adiabatic and Isentropic Steady Flow
  140. 9.4 Isentropic Flow with Area Changes
  141. 9.5 The Normal Shock Wave
  142. 9.6 Operation of Converging and Diverging Nozzles
  143. 9.7 Compressible Duct Flow with Friction
  144. 9.8 Frictionless Duct Flow with Heat Transfer
  145. 9.9 Mach Waves and Oblique Shock Waves
  146. 9.10 Prandtl-Meyer Expansion Waves
  147. Summary
  148. Problems
  149. Word Problems
  150. Fundamentals of Engineering Exam Problems
  151. Comprehensive Problems
  152. Design Projects
  153. References
  154. Chapter 10 Open-Channel Flow
  155. 10.1 Introduction
  156. 10.2 Uniform Flow; The Chézy Formula
  157. 10.3 Efficient Uniform-Flow Channels
  158. 10.4 Specific Energy; Critical Depth
  159. 10.5 The Hydraulic Jump
  160. 10.6 Gradually Varied Flow
  161. 10.7 Flow Measurement and Control by Weirs
  162. Summary
  163. Problems
  164. Word Problems
  165. Fundamentals of Engineering Exam Problems
  166. Comprehensive Problems
  167. Design Projects
  168. References
  169. Chapter 11 Turbomachinery
  170. 11.1 Introduction and Classification
  171. 11.2 The Centrifugal Pump
  172. 11.3 Pump Performance Curves and Similarity Rules
  173. 11.4 Mixed- and Axial-Flow Pumps: The Specific Speed
  174. 11.5 Matching Pumps to System Characteristics
  175. 11.6 Turbines
  176. Summary
  177. Problems
  178. Word Problems
  179. Comprehensive Problems
  180. Design Project
  181. References
  182. Appendix A Physical Properties of Fluids
  183. Appendix B Compressible Flow Tables
  184. Appendix C Conversion Factors
  185. Appendix D Equations of Motion in Cylindrical Coordinates
  186. Appendix E Estimating Uncertainty in Experimental Data
  187. Answers to Selected Problems
  188. Index

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