Fundamentals of Transport Processes - II


Lecture 1 - Review of Fundamentals of Transport Processors I


Lecture 2 - Introduction


Lecture 3 - Vectors and Tensors


Lecture 4 - Vector calculus


Lecture 5 - Vector calculus


Lecture 6 - Curvilinear co-ordinates


Lecture 7 - Kinematics


Lecture 8 - Rate of deformation tensor


Lecture 9 - Mass conservation equation


Lecture 10 - Momentum conservation equation


Lecture 11 - Angular momentum conservation equation


Lecture 12 - Boundary conditions


Lecture 13 - Mechanical energy conservation


Lecture 14 - Unidirectional flow


Lecture 15 - Viscous flows


Lecture 16 - Viscous flows


Lecture 17 - Flow around a sphere


Lecture 18 - Force on moving sphere


Lecture 19 - Torque on rotating sphere


Lecture 20 - Effective viscosity of a suspension


Lecture 21 - Flow in a corner


Lecture 22 - Lubrication flow


Lecture 23 - Lubrication flow


Lecture 24 - Inertia of a low Reynolds number


Lecture 25 - Potential flow


Lecture 26 - Potential flow around a sphere


Lecture 27 - Two-dimensional potential flow


Lecture 28 - Two-dimensional potential flow


Lecture 29 - Flow around a cylinder


Lecture 30 - Conformal transforms in potential flow


Lecture 31 - Boundary layer theory


Lecture 32 - Boundary layer past a flat plate


Lecture 33 - Stagnation point flow


Lecture 34 - Falkner-Skan Boundary Layer Solutions


Lecture 35 - Falkner-Skan Boundary Layer Solutions


Lecture 36 - Vorticity Dynamics


Lecture 37 - Vorticity Dynamics


Lecture 38 - Turbulence


Lecture 39 - Turbulence


Lecture 40 - Turbulent flow in a channel