Lecture 1 - Subscript Notation - Part 1 Lecture 2 - Subscript Notation - Part 2 Lecture 3 - Coordinate Rotation Lecture 4 - Introduction to Tensors Lecture 5 - Symmetry of Properties Lecture 6 - Material Derivative Lecture 7 - Planar Flows Lecture 8 - Reynolds Transport Theorem Lecture 9 - Derivation of Navier-Stokes equation Lecture 10 - Navier Stokes equations - Part 2 Lecture 11 - Flow problem statements Lecture 12 - Simple cases in fluid flow : rectangular coordinate system Lecture 13 - Simple cases in fluid flow : cylindrical coordinate system Lecture 14 - Pipe flow and porous medium Lecture 15 - Simple cases in fluid flow : spherical coordinate system Lecture 16 - Friction factors and correlations Lecture 17 - Energy Transport Lecture 18 - Conduction cases - Steady state Lecture 19 - Conduction cases - Transient state Lecture 20 - Convective heat transfer Lecture 21 - Mass Transfer Overview Lecture 22 - Chemical Equilibrium Lecture 23 - Reaction Equilibrium Lecture 24 - Species Balance Equation Lecture 25 - Solute Transfer Modelling - Part 1 Lecture 26 - Solute Transfer Modelling - Part 2 Lecture 27 - Solute Segregation Profile - Part 1 Lecture 28 - Solute Segregation Profile - Part 2 Lecture 29 - Problem Statements Lecture 30 - Diffusion in Solid State Lecture 31 - Transient Solute Diffusion in Solid State Lecture 32 - Mass Transfer in Fluids Lecture 33 - Similarity Across Transport Phenomena