Description: Preface Nomenclature and Symbology Unit Conversion Factors Introduction to Formulas for Thermal Design of Electronic Equipment Introduction to the Modes of Heat Transfer in Electronic Equipment Theoretical Power Dissipation in Electronic Components Thermal Engineering Software for Personal Computers Formulas for Conduction Heat Transfer in Electronic Equipment Thermal Conductivity Conduction - Steady State Conduction - Transient Boundary Conditions Conduction in Extended Surfaces Thermal Contact Resistance in Electronic Equipment Interfaces Discrete Heat Sources and Thermal Spreading Formulas for Fluid Dynamics for Electronic Equipment Hydrodynamic Properties of Fluids Fluid Statics Fluid Dynamics Incompressible Ideal Fluid Flow Incompressible Real Fluid Flow Loss Coefficients and Dynamic Drag Fans and Pumps Electronic Chassis Flow Convection Heat Transfer in Electronic Equipment Fluid Properties Boundary Layer Theory Dimensionless Groups Forced Convection Natural Convection Radiation Heat Transfer in Electronic Equipment Radiation Equations Surface Characteristics View Factors Environmental Effects Heat Transfer with Phase Change Dimensionless Parameters in Boiling and Condensation Modes of Boiling Liquids Evaporation Condensation Melting and Freezing Combined Modes of Heat Transfer for Electronic Equipment Conduction in Series and Parallel Conduction and Convection in Series Radiation and Convection in Parallel Overall Heat Transfer Coefficient Appendix: Thermophysical Properties of Materials NOTE: References at the end of Chapters 1-6; Introduction at the beginning of Chapters 2-7

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