Mechanics Of Fluids

By: Contributor(s): Material type: TextTextPublication details: London : Van Nostrand Reinhold Company LTD, 1970Edition: 2 editionDescription: 508p,illust,23cmISBN:
  • 0 442 051176 X
Subject(s):
Contents:
CHAPTER 1: FUNDAMENTAL CONCEPTS RELATING TO FLUIDS. 1.1.The Characteristics of Fluids. 1.2.Properties of Fluids 1.3.The Perfect Gas:Equation of State 1.4.Compressibility 1.5Viscosity 1.6Surface Tesion Reference, furthur reading, problems. CHAPTER 2 : FLUIDS IN EQUILIBRIUM (FLUID 'STATICS') 2.1Introduction 2.2Variation of Pressure with Position in a Fluid 2.3The Measurement of Pressure 2.4Hydrostatic Thrusts on Submerged Surfaces 2.5Buoyancy 2.6The Stability of Unconstrained Bodies in Fluids 2.7Equilibrium of moving Fluids. CHAPTER 3: THE PRINCIPLES OF FLUID MOTION 3.1Introduction 3.2Variation of Flow Parameters in time and Space 3.3Describing the Pattern of Flow 3.4Continuity 3.5Bernoulli's Equation 3.6General Equation for Steady Flow of any Fluid 3.7Pressure Variation Perpendicular to Streamlines 3.8Simple Applications of Bernoulli's Equation. CHAPTER 4: THE MOMENTUM EQUATION. 4.1ntroduction 4.2The momentum Equation for steady flow. 4.3Applications of the Momentum Equation. CHAPTER 5: TWO KINDS OF FLOW 5.1Introduction 5.2Reynold's Demonstration of the differnet kinds of flow 5.3The Criterion of Flow 5.4Laminar and Turbulent Flow in Pipes 5.5Eddy Viscosity and the mixing lenght hyphothesis 5.6The Boundry layer and the Laminar Sub-Layer 5.7Distribution of Shear Stress in a Cincular Pipe. 5.7distribution of Shear Stress in a cincular pipe. CHAPTER 6: LAMINAR FLOW 6.1Introduction 6.2Steady Laminar Flow in Cincular Pipes. The Hagen-Poiseuille Law 6.3Steady Laminar Flow between Parallel Planes 6.4Steady Laminar Flow between parallel Planes, one of which is moving. 6.5Stokes Law 6.6The Measurement Viscosity 6.7Fundamentals of the of Hydrodynamic Lubrication 6.8Laminar Flow through Porous Media. CHAPTER 7: TURBULENT FLOW IN PIPES 7.1: Introduction 7.2Head Lost to Friction in a Pipe. 7.2Head Lost to Friction Factor 7.3Variation of Friction Factor 7.4Friction in Non-Circular Conduits 7.5Other Head Losses in Pipes 7.6Total Head and Pressure Lines 7.8Conditions Near to Entry to the Pipe 7.9Quai-Steady Flow in Pipes. CHAPTER 8: PHYSICAL SIMILARITY 8.1Introduction 8.2Dimensiol Analysis 8.3The Concept of Physical Similarity. 8.4Types of Physical Similarity 8.5Rations of Forces Arisig in Dynamic Similarity 8.6
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CHAPTER 1: FUNDAMENTAL CONCEPTS RELATING TO FLUIDS. 1.1.The Characteristics of Fluids. 1.2.Properties of Fluids 1.3.The Perfect Gas:Equation of State 1.4.Compressibility 1.5Viscosity 1.6Surface Tesion Reference, furthur reading, problems. CHAPTER 2 : FLUIDS IN EQUILIBRIUM (FLUID 'STATICS') 2.1Introduction 2.2Variation of Pressure with Position in a Fluid 2.3The Measurement of Pressure 2.4Hydrostatic Thrusts on Submerged Surfaces 2.5Buoyancy 2.6The Stability of Unconstrained Bodies in Fluids 2.7Equilibrium of moving Fluids. CHAPTER 3: THE PRINCIPLES OF FLUID MOTION 3.1Introduction 3.2Variation of Flow Parameters in time and Space 3.3Describing the Pattern of Flow 3.4Continuity 3.5Bernoulli's Equation 3.6General Equation for Steady Flow of any Fluid 3.7Pressure Variation Perpendicular to Streamlines 3.8Simple Applications of Bernoulli's Equation. CHAPTER 4: THE MOMENTUM EQUATION. 4.1ntroduction 4.2The momentum Equation for steady flow. 4.3Applications of the Momentum Equation. CHAPTER 5: TWO KINDS OF FLOW 5.1Introduction 5.2Reynold's Demonstration of the differnet kinds of flow 5.3The Criterion of Flow 5.4Laminar and Turbulent Flow in Pipes 5.5Eddy Viscosity and the mixing lenght hyphothesis 5.6The Boundry layer and the Laminar Sub-Layer 5.7Distribution of Shear Stress in a Cincular Pipe. 5.7distribution of Shear Stress in a cincular pipe. CHAPTER 6: LAMINAR FLOW 6.1Introduction 6.2Steady Laminar Flow in Cincular Pipes. The Hagen-Poiseuille Law 6.3Steady Laminar Flow between Parallel Planes 6.4Steady Laminar Flow between parallel Planes, one of which is moving. 6.5Stokes Law 6.6The Measurement Viscosity 6.7Fundamentals of the of Hydrodynamic Lubrication 6.8Laminar Flow through Porous Media. CHAPTER 7: TURBULENT FLOW IN PIPES 7.1: Introduction 7.2Head Lost to Friction in a Pipe. 7.2Head Lost to Friction Factor 7.3Variation of Friction Factor 7.4Friction in Non-Circular Conduits 7.5Other Head Losses in Pipes 7.6Total Head and Pressure Lines 7.8Conditions Near to Entry to the Pipe 7.9Quai-Steady Flow in Pipes. CHAPTER 8: PHYSICAL SIMILARITY 8.1Introduction 8.2Dimensiol Analysis 8.3The Concept of Physical Similarity. 8.4Types of Physical Similarity 8.5Rations of Forces Arisig in Dynamic Similarity 8.6

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