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	Fluid Mechanics Si Version by Munson, Okiishi, Huebsch, Rothmayer
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Fundamentals of Fluid Mechanics offer comprehensive topical coverage, with varied examples and problems, application of visual component of fluid mechanics and strong focus on effective learning. The text enables the gradual development of confidence in problem solving. The authors have designed their presentation to enable the gradual development of reader confidence in problem solving. Each important concept is introduced in easy-to-understand terms before more complicated examples are discussed.

Fluid Statics
Elementary Fluid Dynamics--The Bernoulli Equation
Fluid Kinematics
Finite Control Volume Analysis
Differential Analysis of Fluid Flow
Dimensional Analyses, Similitude and Modeling
Viscous Flow in Pipes
Flow Over Immersed Bodies
Open-Channel Flow
Compressible Flow
Turbo machines

Table of Contents

Introduction

1.1 Some Characteristics of Fluids

1.2 Dimensions, Dimensional Homogeneity and Units

1.3 Analysis of Fluid Behavior

1.4 Measures of Fluid Mass and Weight

1.5 Ideal Gas Law

1.6 Viscosity

1.7 Compressibility of Fluids

1.8 Vapor Pressure

1.9 Surface Tension

1.10 A Brief Look Back in History

1.11 Chapter Summary and Study Guide

2 Fluid Statics

2.1 Pressure at a Point

2.2 Basic Equation for Pressure Field

2.3 Pressure Variation in a Fluid at Rest

2.4 Standard Atmosphere

2.5 Measurement of Pressure

2.6 Manometry

2.7 Mechanical and Electronic Pressure-Measuring Devices

2.8 Hydrostatic Force on a Plane Surface

2.9 Pressure Prism

2.10 Hydrostatic Force on a Curved Surface

2.11 Buoyancy, Flotation and Stability

2.12 Pressure Variation in a Fluid with Rigid-Body Motion

2.13 Chapter Summary and Study Guide

3 Elementary Fluid Dynamics - The Bernoulli Equation

3.1 Newton`s Second Law

3.2 F _ ma along a Streamline

3.3 F _ ma Normal to a Streamline

3.4 Physical Interpretation

3.5 Static, Stagnation, Dynamic and Total Pressure

3.6 Examples of Use of the Bernoulli Equation

3.7 The Energy Line and the Hydraulic Grade Line

3.8 Restrictions on Use of the Bernoulli Equation

3.9 Chapter Summary and Study Guide

4 Fluid Kinematics

4.1 The Velocity Field

4.2 The Acceleration Field

4.3 Control Volume and System Representations 4.4 The Reynolds Transport Theorem

4.5 Chapter Summary and Study Guide

5 Finite Control Volume Analysis

5.1 Conservation of Mass The

5.2 Newton`s Second Law - The Linear Momentum and Moment-of-Momentum Equations

5.3 First Law of Thermodynamics - The Energy Equation

5.4 Second Law of Thermodynamics - Irreversible Flow

5.5 Chapter Summary and Study Guide

6 Differential Analysis of Fluid Flow

6.1 Fluid Element Kinematics

6.2 Conservation of Mass

6.3 Conservation of Linear Momentum

6.4 Inviscid Flow

6.5 Some Basic, Plane Potential Flows

6.6 Superposition of Basic, Plane Potential Flows

6.7 Other Aspects of Potential Flow Analysis

6.8 Viscous Flow

6.9 Some Simple Solutions for Viscous, Incompressible Fluids

6.10 Other Aspects of Differential Analysis

6.11 Chapter Summary and Study Guide

7 Dimensional Analyses, Similitude and Modeling

7.1 Dimensional Analysis

7.2 Buckingham Pi Theorem

7.3 Determination of Pi Terms

7.4 Some Additional Comments about Dimensional Analysis

7.5 Determination of Pi Terms by Inspection

7.6 Common Dimensionless Groups in Fluid Mechanics

7.7 Correlation of Experimental Data

7.8 Modeling and Similitude

7.9 Some Typical Model Studies

7.10 Similitude Based on Governing Differential Equations

7.11 Chapter Summary and Study Guide

8 Viscous Flow in Pipes

8.1 General Characteristics of Pipe Flow

8.2 Fully Developed Laminar Flow

8.3 Fully Developed Turbulent Flow

8.4 Dimensional Analysis of Pipe Flow

8.5 Pipe Flow Examples

8.6 Pipe Flow rate Measurement

8.7 Chapter Summary and Study Guide

9 Flow Over Immersed Bodies

9.1 General External Flow Characteristics

9.2 Boundary Layer Characteristics

9.3 Drag

9.3.1 Friction Drag

9.4 Lift

9.5 Chapter Summary and Study Guide

10 Open-Channel Flow

10.1 General Characteristics of Open-Channel Flow

10.2 Surface Waves

10.3 Energy Considerations

10.4 Uniform Depth Channel Flow

10.5 Gradually Varied Flow

10.6 Rapidly Varied Flow

10.7 Chapter Summary and Study Guide

11 Compressible Flow

11.1 Ideal Gas Relationships

11.2 Mach Number and Speed of Sound

11.3 Categories of Compressible Flow

11.4 Isentropic Flow of an Ideal Gas

11.5 Nonisentropic Flow of an Ideal Gas

11.6 Analogy between Compressible and Open-Channel Flows

11.7 Two-Dimensional Compressible Flow

11.8 Chapter Summary and Study Guide

12 Turbomachines

12.1 Introduction

12.2 Basic Energy Considerations

12.3 Basic Angular Momentum Considerations

12.4 The Centrifugal Pump

12.5 Dimensionless Parameters and Similarity Laws

12.6 Axial-Flow and Mixed-Flow Pumps

12.7 Fans

12.8 Turbines

12.9 Compressible Flow Turbomachines

12.10 Chapter Summary and Study Guide

References

Review Problems

Conceptual Questions

Problems

A Computational fluid dynamics

B Physical Properties of Fluids

C Properties of the U.S.

Standard Atmosphere

D Compressible Flow graphs

For an Ideal Gas (k _ 1.4)

Answers ANS-

Index I

Video Index ISBN - 9788126553433

Pages : 1326

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