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    Fundamentals of Fluid Mechanics

    ISBN-10: 0471675822
    ISBN-13: 9780471675822
    Author(s): Bruce R. Munson, Donald F. Young, Theodore H. Okiishi
    Description: The Bernoulli equation is introduced early to increase student enthusiasm for the more complicated material that follows. Each important concept is considered in simple circumstances before more complicated features are discussed.
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    List Price: $192.95
    Edition: 5th
    Publisher: John Wiley & Sons, Incorporated
    Binding: Hardcover
    Pages: 816
    Size: 8.25" wide x 10.00" long x 1.25" tall
    Weight: 3.784
    Language: English

    The Bernoulli equation is introduced early to increase student enthusiasm for the more complicated material that follows. Each important concept is considered in simple circumstances before more complicated features are discussed.

    Introduction
    Some Characteristics of Fluids
    Dimensions, Dimensional Homogeneity, and Units
    Systems of Units
    Analysis of Fluid Behavior
    Measures of Fluid Mass and Weight
    Density
    Specific Weight
    Specific Gravity
    Ideal Gas Law
    Viscosity
    Compressibility of Fluids
    Bulk Modulus
    Compression and Expansion of Gases
    Speed of Sound
    Vapor Pressure
    Surface Tension
    Chapter Summary and Study Guide Problems
    Fluid Statics
    Pressure at a Point
    Basic Equation for Pressure Field
    Pressure Variation in a Fluid at Rest
    Incompressible Fluid
    Compressible Fluid
    Standard Atmosphere
    Measurement of Pressure
    Manometry
    Piezometer Tube
    U-Tube Manometer
    Inclined-Tube Manometer
    Mechanical and Electronic Pressure Measuring Devices
    Hydrostatic Force on a Plane Surface
    Pressure Prism
    Hydrostatic Force on a Curved Surface
    Buoyancy, Flotation, and Stability
    Archimedes' Principle
    Stability
    Pressure Variation in a Fluid with Rigid-Body Motion
    Chapter Summary and Study Guide
    References
    Problems
    Elementary Fluid Dynamics-The Bernoulli Equation
    Newton's Second Law
    F = ma Along a Streamline
    F = ma Normal to a Streamline
    Physical Interpretation
    Static, Stagnation, Dynamic, and Total Pressure
    Examples of Use of the Bernoulli Equation
    Free Jets
    Confined Flows
    Flowrate Measurement
    The Energy Line and the Hydraulic Grade Line
    Restrictions on the Use of the Bernoulli Equation
    Chapter Summary and Study Guide
    Problems
    Fluid Kinematics
    The Velocity Field
    Eulerian and Lagrangian Flow Descriptions
    One-, Two-, and Three- Dimensional Flows
    Steady and Unsteady Flows
    Streamlines, Streaklines, and Pathlines
    The Acceleration Field
    The Material Derivative
    Unsteady Effects
    Convective Effects
    Streamline Coordinates
    Control Volume and System Representations
    The Reynolds Transport Theorem
    Derivation of the Reynolds Transport Theorem
    Selection of a Control Volume
    Chapter Summary and Study Guide
    References
    Problems
    Finite Control Volume Analysis
    Conservation of Mass-The Continuity Equation
    Derivation of the Continuity Equation
    Fixed, Nondeforming Control Volume
    Moving, Nondeforming Control Volume
    Newton's Second Law-The Linear Momentum and Moment-of-Momentum Equations
    Derivation of the Linear Momentum Equation
    Application of the Linear Momentum Equation
    Derivation of the Moment-of-Momentum Equation
    Application of the Moment-of-Momentum Equation
    First Law of Thermodynamics-The Energy Equation
    Derivation of the Energy Equation
    Application of the Energy Equation
    Comparison of the Energy Equation with the Bernoulli Equation
    Application of the Energy Equation to Nonuniform Flows
    Chapter Summary and Study Guide
    Problems
    Differential Analysis of Fluid Flow
    Fluid Element Kinematics
    Velocity and Acceleration Fields Revisited
    Linear Motion and Deformation
    Angular Motion and Deformation
    Conservation of Mass
    Differential Form of Continuity Equation
    Cylindrical Polar Coordinates
    The Stream Function
    Conservation of Linear Momentum
    Description of Forces Acting on Differential Element
    Equations of Motion
    Inviscid Flow
    Euler's Equations of Motion
    The Bernoulli Equation
    Irrotational Flow
    The Bernoulli Equation for Irrotational Flow
    The Velocity Potential
    Some Basic, Plane Potential Flows
    Uniform Flow
    Source and Sink
    Vortex
    Doublet
    Superposition of Basic, Plane Potential Flows
    Source in a Uniform Stream-Half-Body
    Flow around a Circular Cylinder
    Other Aspects of Potential Flow Analysis
    Viscous Flow
    Stress-Deformation Relationships
    The Navier-Stokes Equations
    Some Simple Solutions for Viscous, Incompressible Fluids
    Steady, Laminar Flow between Fixed Parallel Plates
    Couette Flow
    Steady, Laminar Flow in Circular Tubes
    Other Aspects of Differential Analysis
    Chapter Summary and Study Guide
    References
    Problems
    Similitude, Dimensional Analysis, and Modeling
    Dimensional Analysis
    Buckingham Pi Theorem
    Determination of Pi Terms
    Some Additional Comments about Dimensional Analysis
    Selection of Variables
    Determination of Reference Dimensions
    Uniqueness of Pi Terms
    Determination of Pi Terms by Inspection
    Common Dimensionless Groups in Fluid Mechanics
    Correlation of Experimental Data
    Problems with One Pi Term
    Problems with Two or More Pi Terms
    Modeling and Similitude
    Theory of Models
    Model Scales
    Distorted Models
    Some Typical Model Studies
    Flow through Closed Conduits
    Flow around Immersed Bodies
    Flow with a Free Surface
    Chapter Summary and Study Guide
    References
    Problems
    Viscous Flow in Pipes
    General Characteristics of Pipe Flow
    Laminar or Turbulent Flow
    Entrance Region and Fully Developed Flow
    Fully Developed Laminar Flow
    From F = ma Applied to a Fluid Element
    From the Navier-Stokes Equations
    Fully Developed Turbulent Flow
    Transition from Laminar to Turbulent Flow
    Turbulent Shear Stress
    Turbulent Velocity Profile
    Dimensional Analysis of Pipe Flow
    Major Losses
    Minor Losses
    Noncircular Conduits
    Pipe Flow Examples
    Single Pipes
    Multiple Pipe Systems
    Pipe Flowrate Measurement
    Chapter Summary and Study Guide
    References
    Problems
    Flow Over Immersed Bodies
    General External Flow Characteristics
    Lift and Drag Concepts
    Characteristics of Flow Past an Object
    Boundary Layer Characteristics
    Boundary Layer Structure and Thickness on a Flat Plate
    Prandt1/Blasius Boundary Layer Solution
    Momentum Integral Boundary Layer Equation for a Flat Plate
    Transition from Laminar to Turbulent Flow
    Turbulent Boundary Layer Flow
    Effects of Pressure Gradient
    Drag
    Friction Drag
    Pressure Drag
    Drag Coefficient Data and Examples
    Lift
    Surface Pressure Distribution
    Circulation
    Chapter Summary and Study Guide
    References
    Problems
    Open-Channel Flow
    General Characteristics of Open-Channel Flow
    Surface Waves
    Wave Speed
    Froude Number Effects
    Energy Considerations
    Specific Energy
    Uniform Depth Channel Flow
    Uniform Flow Approximations
    The Chezy and Manning Equations
    Uniform Depth Examples
    Gradually Varied Flow
    Rapidly Varied Flow
    The Hydraulic Jump
    Sharp-Crested Weirs
    Broad-Crested Weirs
    Underflow Gates
    Chapter Summary and Study Guide
    References
    Problems
    Turbomachines
    Introduction
    Basic Energy Considerations
    Basic Angular Momentum Considerations
    The Centrifugal Pump
    Theoretical Considerations
    Pump Performance Characteristics
    System Characteristics and Pump Selection
    Dimensionless Parameters and Similarity Laws
    Specific Speed
    Axial-Flow and Mixed-Flow Pumps
    Turbines
    Impulse Turbines
    Reaction Turbines
    Compressible Flow Turbomachines
    Chapter Summary and Study Guide
    References
    Problems
    Computational Fluid Dynamics and Flowlab
    Physical Properties of Fluids
    Properties of the U.S. Standard Atmosphere
    Reynolds Transport Theorem
    General Reynolds Transport Theorem
    General Control Volume Equations
    Comprehensive Table of Conversion Factors
    Online Appendix List
    Video Library
    Review Problems
    Laboratory Problems
    CFD Driven Cavity Example
    Flowlab Tutorial and User's Guide
    Flowlab Problems
    Answers
    Index
    Index of Fluids Phenomena Videos

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