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Introduction to Fluid Mechanics 10th Edition by McDonald Fox ISBN 1119616573 9781119616573

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Introduction to Fluid Mechanics 10th Edition Fox Digital Instant Download

Author(s): Fox, McDonald
ISBN(s): 9781119616573, 1119616573
Edition: 10
File Details: PDF, 36.05 MB
Year: 2020
Language: english
SKU: EB-11682002 Category: Tags: ,

Introduction to Fluid Mechanics 10th Edition by McDonald Fox – Ebook PDF Instant Download/Delivery: 1119616573, 9781119616573
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ISBN 10: 1119616573 
ISBN 13: 9781119616573
Author: McDonald Fox

Through ten editions, Fox and McDonald’s Introduction to Fluid Mechanics has helped students understand the physical concepts, basic principles, and analysis methods of fluid mechanics. This market-leading textbook provides a balanced, systematic approach to mastering critical concepts with the proven Fox-McDonald solution methodology. In-depth yet accessible chapters present governing equations, clearly state assumptions, and relate mathematical results to corresponding physical behavior. Emphasis is placed on the use of control volumes to support a practical, theoretically-inclusive problem-solving approach to the subject.

Each comprehensive chapter includes numerous, easy-to-follow examples that illustrate good solution technique and explain challenging points. A broad range of carefully selected topics describe how to apply the governing equations to various problems, and explain physical concepts to enable students to model real-world fluid flow situations. Topics include flow measurement, dimensional analysis and similitude, flow in pipes, ducts, and open channels, fluid machinery, and more. To enhance student learning, the book incorporates numerous pedagogical features including chapter summaries and learning objectives, end-of-chapter problems, useful equations, and design and open-ended problems that encourage students to apply fluid mechanics principles to the design of devices and systems.

Introduction to Fluid Mechanics 10th Table of contents:

CHAPTER 1: Introduction

  • Problems

  • READINGS
    1.1 Introduction to Fluid Mechanics
    1.2 Basic Equations
    1.3 Methods of Analysis
    1.4 Dimensions and Units
    1.5 Analysis of Experimental Error
    1.6 Summary

  • REFERENCES

CHAPTER 2: Fundamental Concepts

  • Problems

  • READINGS
    2.1 Fluid as a Continuum
    2.2 Velocity Field
    2.3 Stress Field
    2.4 Viscosity
    2.5 Surface Tension
    2.6 Description and Classification of Fluid Motions
    2.7 Summary and Useful Equations

  • REFERENCES

CHAPTER 3: Fluid Statics

  • Problems

  • READINGS
    3.1 The Basic Equation of Fluid Statics
    3.2 The Standard Atmosphere
    3.3 Pressure Variation in a Static Fluid
    3.4 Hydrostatic Force on Submerged Surfaces
    3.5 Buoyancy and Stability
    3.6 Fluids in Rigid‐Body Motion
    3.7 Summary and Useful Equations

  • REFERENCES

CHAPTER 4: Basic Equations in Integral Form for a Control Volume

  • Problems

  • READINGS
    4.1 Basic Laws for a System
    4.2 Relation of System Derivatives to the Control Volume Formulation
    4.3 Conservation of Mass
    4.4 Momentum Equation for Inertial Control Volume
    4.5 Momentum Equation for Control Volume with Rectilinear Acceleration
    4.6 Momentum Equation for Control Volume with Arbitrary Acceleration
    4.7 The Angular‐Momentum Principle
    4.8 The First and Second Laws of Thermodynamics
    4.9 Summary and Useful Equations

CHAPTER 5: Introduction to Differential Analysis of Fluid Motion

  • Problems

  • READINGS
    5.1 Conservation of Mass
    5.2 Stream Function for Two‐Dimensional Incompressible Flow
    5.3 Motion of a Fluid Particle (Kinematics)
    5.4 Momentum Equation
    5.5 Summary and Useful Equations

  • REFERENCES

CHAPTER 6: Incompressible Inviscid Flow

  • Problems

  • READINGS
    6.1 Momentum Equation for Frictionless Flow: Euler’s Equation
    6.2 Bernoulli Equation: Integration of Euler’s Equation Along a Streamline for Steady Flow
    6.3 The Bernoulli Equation Interpreted as an Energy Equation
    6.4 Energy Grade Line and Hydraulic Grade Line
    6.5 Unsteady Bernoulli Equation: Integration of Euler’s Equation Along a Streamline
    6.6 Irrotational Flow
    6.7 Summary and Useful Equations

  • REFERENCES

CHAPTER 7: Dimensional Analysis and Similitude

  • Problems

  • READINGS
    7.1 Nondimensionalizing the Basic Differential Equations
    7.2 Buckingham Pi Theorem
    7.3 Significant Dimensionless Groups in Fluid Mechanics
    7.4 Flow Similarity and Model Studies
    7.5 Summary and Useful Equations

  • REFERENCES

CHAPTER 8: Internal Incompressible Viscous Flow

  • Problems

  • READINGS

Part A: FULLY DEVELOPED LAMINAR FLOW
8.2 Fully Developed Laminar Flow Between Infinite Parallel Plates
8.3 Fully Developed Laminar Flow in a Pipe

Part B: FLOW IN PIPES AND DUCTS
8.4 Shear Stress Distribution in Fully Developed Pipe Flow
8.5 Turbulent Velocity Profiles in Fully Developed Pipe Flow
8.6 Energy Considerations in Pipe Flow
8.7 Calculation of Head Loss
8.8 Solution of Pipe Flow Problems

Part C: FLOW MEASUREMENT
8.9 Restriction Flow Meters for Internal Flows
8.10 Summary and Useful Equations

  • REFERENCES

CHAPTER 9: External Incompressible Viscous Flow

  • Problems

  • READINGS

Part A: BOUNDARY LAYERS
9.1 The Boundary Layer Concept
9.2 Laminar Flat Plate Boundary Layer: Exact Solution
9.3 Momentum Integral Equation
9.4 Use of the Momentum Integral Equation for Flow with Zero Pressure Gradient
9.5 Pressure Gradients in Boundary Layer Flow

Part B: FLUID FLOW ABOUT IMMERSED BODIES
9.6 Drag
9.7 Lift
9.8 Summary and Useful Equations

  • REFERENCES

CHAPTER 10: Fluid Machinery

  • Problems

  • READINGS
    10.1 Introduction and Classification of Fluid Machines
    10.2 Turbomachinery Analysis
    10.3 Pumps, Fans, and Blowers
    10.4 Positive Displacement Pumps
    10.5 Hydraulic Turbines
    10.6 Propellers and Wind Turbines
    10.7 Compressible Flow Turbomachines
    10.8 Summary and Useful Equations

  • REFERENCES

CHAPTER 11: Flow in Open Channels

  • Problems

  • READINGS
    11.1 Basic Concepts and Definitions
    11.2 Energy Equation for Open‐Channel Flows
    11.3 Localized Effect of Area Change (Frictionless Flow)
    11.4 The Hydraulic Jump
    11.5 Steady Uniform Flow
    11.6 Flow with Gradually Varying Depth
    11.7 Discharge Measurement Using Weirs
    11.8 Summary and Useful Equations

  • REFERENCES

CHAPTER 12: Introduction to Compressible Flow

  • Problems

  • READINGS
    12.1 Review of Thermodynamics
    12.2 Propagation of Sound Waves
    12.3 Reference State: Local Isentropic Stagnation Properties
    12.4 Critical Conditions
    12.5 Basic Equations for One‐Dimensional Compressible Flow
    12.6 Isentropic Flow of an Ideal Gas: Area Variation
    12.7 Normal Shocks
    12.8 Supersonic Channel Flow with Shocks
    12.9 Summary and Useful Equations

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