 Fundamentals of Momentum, Heat and Mass Transfer, 5th Edition
ISBN: 978-0-470-12868-8
Hardcover
740 pages
November 2007
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Chapter 1: Introduction to Momentum Transfer
Chapter 2: Fluid Statics
Chapter 3: Description of a Fluid in Motion
Chapter 4: Conservation of Mass: Control-Volume Approach
Chapter 5: Newton's Second Law of Motion: Control-Volume Approach
Chapter 6: Conservation of Energy: Control-Volume Approach
Chapter 7: Shear Stress in Laminar Flow
Chapter 8: Analysis of a Differential Fluid Element in Laminar Flow
Chapter 9: Differential Equations of Fluid Flow
Chapter 10: Inviscid Fluid Flow
Chapter 11: Dimensional Analysis and Similitude
Chapter 12: Viscous Flow
Chapter 13: Flow in Closed Conduits
Chapter 14: Fluid Machinery
Chapter 15: Fundamentals of Heat Transfer
Chapter 16: Differential Equations of Heat Transfer
Chapter 17: Steady-State Conduction
Chapter 18: Unsteady-State Conduction
Chapter 19: Convective Heat Transfer
Chapter 20: Convective Heat-Transfer Correlations
Chapter 21: Boiling and Condensation
Chapter 22: Heat-Transfer Equipment
Chapter 23: Radiation Heat Transfer
Chapter 24: Fundmentals of Mass Transfer
Chapter 25: Differential Equations of Mass Transfer
Chapter 26: Steady-State Molecular Diffusion
Chapter 27: Unsteady-State Molecular Diffusion
Chapter 28: Convective Mass Transfer
Chapter 29: Convective Mass Transfer Between Phases
Chapter 30: Convective Mass-Transfer Correlations
Chapter 31: Mass-Transfer Equipment
A. Transformations of the Operators = and =2 to Cylindrical Coordinates
B. Summary of Differential Vector Operations in Various Coordinate Systems
C. Symmetry of the Stress Tensor
D. The Viscous Contribution to the Normal Stress
E. The Navier-Stokes Equations for Constant b and m in Cartesian,
Cylindrical, and Spherical Coordinates
F. Charts for Solution of Unsteady Transport Problems
G. Properties of the Standard Atmosphere
H. Physical Properties of Solids
I. Physical Properties of Gases and Liquids
J. Mass-Transfer Diffusion Coefficients in Binary Systems
K. Lennard-Jones Constants
L. The Error Function
M. Standard Pipe Sizes
N. Standard Tubing Gages
Chapter 2: Fluid Statics
Chapter 3: Description of a Fluid in Motion
Chapter 4: Conservation of Mass: Control-Volume Approach
Chapter 5: Newton's Second Law of Motion: Control-Volume Approach
Chapter 6: Conservation of Energy: Control-Volume Approach
Chapter 7: Shear Stress in Laminar Flow
Chapter 8: Analysis of a Differential Fluid Element in Laminar Flow
Chapter 9: Differential Equations of Fluid Flow
Chapter 10: Inviscid Fluid Flow
Chapter 11: Dimensional Analysis and Similitude
Chapter 12: Viscous Flow
Chapter 13: Flow in Closed Conduits
Chapter 14: Fluid Machinery
Chapter 15: Fundamentals of Heat Transfer
Chapter 16: Differential Equations of Heat Transfer
Chapter 17: Steady-State Conduction
Chapter 18: Unsteady-State Conduction
Chapter 19: Convective Heat Transfer
Chapter 20: Convective Heat-Transfer Correlations
Chapter 21: Boiling and Condensation
Chapter 22: Heat-Transfer Equipment
Chapter 23: Radiation Heat Transfer
Chapter 24: Fundmentals of Mass Transfer
Chapter 25: Differential Equations of Mass Transfer
Chapter 26: Steady-State Molecular Diffusion
Chapter 27: Unsteady-State Molecular Diffusion
Chapter 28: Convective Mass Transfer
Chapter 29: Convective Mass Transfer Between Phases
Chapter 30: Convective Mass-Transfer Correlations
Chapter 31: Mass-Transfer Equipment
A. Transformations of the Operators = and =2 to Cylindrical Coordinates
B. Summary of Differential Vector Operations in Various Coordinate Systems
C. Symmetry of the Stress Tensor
D. The Viscous Contribution to the Normal Stress
E. The Navier-Stokes Equations for Constant b and m in Cartesian,
Cylindrical, and Spherical Coordinates
F. Charts for Solution of Unsteady Transport Problems
G. Properties of the Standard Atmosphere
H. Physical Properties of Solids
I. Physical Properties of Gases and Liquids
J. Mass-Transfer Diffusion Coefficients in Binary Systems
K. Lennard-Jones Constants
L. The Error Function
M. Standard Pipe Sizes
N. Standard Tubing Gages
