- Page 1 and 2: Basics of Fluid Mechanics Genick Ba
- Page 3 and 4: CONTENTS Nomenclature xi GNU Free D
- Page 5 and 6: CONTENTS iii 4.4.2 Angular Accelera
- Page 7 and 8: LIST OF FIGURES 1.1 Diagram to expl
- Page 9 and 10: LIST OF FIGURES vii 4.36 The effect
- Page 11: LIST OF TABLES 1 Books Under Potto
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- Page 17 and 18: Notice of Copyright For This Docume
- Page 19 and 20: GNU FREE DOCUMENTATION LICENSE xvii
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- Page 23 and 24: GNU FREE DOCUMENTATION LICENSE xxi
- Page 25 and 26: CONTRIBUTOR LIST How to contribute
- Page 27 and 28: About This Author Genick Bar-Meir h
- Page 29 and 30: Prologue For The POTTO Project This
- Page 31 and 32: CREDITS xxix adding a question and
- Page 33 and 34: CREDITS xxxi such as the Linux Docu
- Page 35 and 36: Prologue For This Book Version 0.1.
- Page 37 and 38: How This Book Was Written This book
- Page 39 and 40: Preface "In the beginning, the POTT
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- Page 43 and 44: CHAPTER 1 Introduction 1.1 What is
- Page 45 and 46: 1.2. BRIEF HISTORY 3 liquid assumin
- Page 47 and 48: 1.3. KINDS OF FLUIDS 5 the computer
- Page 49 and 50: 1.4. SHEAR STRESS 7 Where A is the
- Page 51 and 52: 1.5. VISCOSITY 9 Example 1.2: Casto
- Page 53 and 54: 1.5. VISCOSITY 11 be written as τ
- Page 55 and 56: 1.5. VISCOSITY 13 ❵❵❵❵❵
- Page 57 and 58: 1.5. VISCOSITY 15 chemical componen
- Page 59 and 60: 1.5. VISCOSITY 17 SOLUTION µ µc R
- Page 61 and 62: 1.5. VISCOSITY 19 perature with a
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1.5. VISCOSITY 21 This parameter in
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1.6. SURFACE TENSION 23 For a very
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1.6. SURFACE TENSION 25 The connect
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1.6. SURFACE TENSION 27 build on po
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1.6. SURFACE TENSION h 29 The capil
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1.6. SURFACE TENSION 31 Table -1.7:
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CHAPTER 2 Review of Thermodynamics
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2.1. BASIC DEFINITIONS 35 Since the
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2.1. BASIC DEFINITIONS 37 For isent
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2.1. BASIC DEFINITIONS 39 From the
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CHAPTER 3 Review of Mechanics This
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3.2. MOMENT OF INERTIA 43 when the
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3.2. MOMENT OF INERTIA 45 equation
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3.2. MOMENT OF INERTIA 47 is dIxxm
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3.2. MOMENT OF INERTIA 49 For examp
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3.4. ANGULAR MOMENTUM AND TORQUE 51
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3.4. ANGULAR MOMENTUM AND TORQUE 53
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4.1 Introduction CHAPTER 4 Fluids S
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4.3. PRESSURE AND DENSITY IN A GRAV
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4.3. PRESSURE AND DENSITY IN A GRAV
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4.3. PRESSURE AND DENSITY IN A GRAV
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4.3. PRESSURE AND DENSITY IN A GRAV
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4.3. PRESSURE AND DENSITY IN A GRAV
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4.3. PRESSURE AND DENSITY IN A GRAV
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4.3. PRESSURE AND DENSITY IN A GRAV
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4.3. PRESSURE AND DENSITY IN A GRAV
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4.4. FLUID IN A ACCELERATED SYSTEM
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4.5. FLUID FORCES ON SURFACES 75 No
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4.5. FLUID FORCES ON SURFACES 77 Sy
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4.5. FLUID FORCES ON SURFACES 79 th
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4.5. FLUID FORCES ON SURFACES 81 F2
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4.5. FLUID FORCES ON SURFACES 83 Af
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4.5. FLUID FORCES ON SURFACES 85 4.
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4.5. FLUID FORCES ON SURFACES 87 pr
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4.5. FLUID FORCES ON SURFACES 89 Th
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4.5. FLUID FORCES ON SURFACES 91 Th
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4.6. BUOYANCY AND STABILITY 93 are
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4.6. BUOYANCY AND STABILITY 95 Exam
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4.6. BUOYANCY AND STABILITY 97 Thus
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4.6. BUOYANCY AND STABILITY 99 posi
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4.6. BUOYANCY AND STABILITY 101 SOL
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4.6. BUOYANCY AND STABILITY 103 bod
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4.6. BUOYANCY AND STABILITY 105 The
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4.6. BUOYANCY AND STABILITY 107 The
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4.7. RAYLEIGH-TAYLOR INSTABILITY 10
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4.7. RAYLEIGH-TAYLOR INSTABILITY 11
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5.1 Introduction CHAPTER 5 Multi-Ph
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5.4. KIND OF MULTI-PHASE FLOW 115 5
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5.5. CLASSIFICATION OF LIQUID-LIQUI
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5.5. CLASSIFICATION OF LIQUID-LIQUI
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5.5. CLASSIFICATION OF LIQUID-LIQUI
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5.6. MULTI-PHASE FLOW VARIABLES DEF
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5.7. HOMOGENEOUS MODELS 125 X = The
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5.7. HOMOGENEOUS MODELS 127 The fri
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5.8. SOLID-LIQUID FLOW 129 Where th
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5.8. SOLID-LIQUID FLOW 131 In trans
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5.9. COUNTER-CURRENT FLOW 133 micro
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5.9. COUNTER-CURRENT FLOW 135 Fig.
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5.9. COUNTER-CURRENT FLOW 137 A sim
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5.9. COUNTER-CURRENT FLOW 139 The f
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5.9. COUNTER-CURRENT FLOW 141 Which
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5.10. MULTI-PHASE CONCLUSION 143 fo
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SUBJECTS INDEX 145 Subjects Index A
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AUTHORS INDEX 147 Authors Index B B