Explores the fundamentals of heat transfer, including radiation properties, energy conservation, and thermal conductivity, covering conduction, convection, and participating media.
Explores forced external convection correlations and the procedure for solving convection problems, including the comparison of velocity and thermal boundary layers.
Covers the derivation of formal solutions to the Radiative Transfer Equation and discusses isotropic scattering, optical thickness, and Monte Carlo method applications.
Covers the recap of forced and free convection, including the definition of convection and the general procedure to determine the convection coefficient.
Covers the approximation treatments of the Boltzmann Equation for photons, phonons, and electrons, exploring diffusion and ballistic-diffuse approaches.
