Fundamentals of Heat and Mass TransferCompletely updated, the seventh edition provides engineers with an indepth look at the key concepts in the field. It incorporates new discussions on emerging areas of heat transfer, discussing technologies that are related to nanotechnology, biomedical engineering and alternative energy. The example problems are also updated to better show how to apply the material. And as engineers follow the rigorous and systematic problemsolving methodology, they’ll gain an appreciation for the richness and beauty of the discipline. 
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Review: Fundamentals of Heat and Mass Transfer
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Contents
Introduction to Conduction  68 
OneDimensional SteadyState Conduction  112 
The Graphical Method  W1 
Problems W10 CHAPTER 5 Transient Conduction  279 
Graphical Representation of OneDimensional Transient Conduction in  W12 
Introduction to Convection  378 
Derivation of the Convection Transfer Equations W25  W25 
Internal Flow  518 
Processes and Properties  768 
Contents  841 
Radiation Exchange Between Surfaces  861 
Diffusion Mass Transfer  934 
APPENDIX A Thermophysical Properties of Matter  981 
APPENDIX B Mathematical Relations and Functions  1013 
Thermal Conditions Associated with Uniform Energy  1018 
Generation in OneDimensional SteadyState Systems  1019 
Common terms and phrases
aerogel aluminum ambient air approximated assumed boundary conditions Calculate Chapter chip Consider Constant properties contact resistance control volume convection coefficient convection heat transfer cooling coordinates cylinder determine diameter efficiency electrical resistance emissivity energy balance example exposed expression Figure finitedifference equation fluid Fourier’s law fuel cell heat engine heat equation heat flux heat loss heat rate heat sink heat transfer coefficient heat transfer rate heater increasing initial inner surface insulation irradiation isothermal J/kg layer liquid material mechanical energy medium nodal node obtain onedimensional outer surface perature plane wall plate plot problems radiation exchange radius rate equations rate of heat Rt,c Schematic silicon sketch the temperature solid specific heat spherical steadystate conditions steadystate temperature surface temperature tempera temperature distribution temperature gradient thermal conductivity thermal energy thermal resistance thermocouple thermodynamics thickness tion Tsur tube ture twodimensional uniform temperature unit length volumetric W/mK