Part 1 One-dimensional laminar flows: momentum transfer viscosity and shear stress; Newtonian flow between parallel plates; Newtonian flow in round tubes and circular annuli; forced flow on non-Newtonian fluids through channels; thin films and other open, gravitational flows; Couette flows. Part 2 The general equations of motion: derivation of the general mass and force-momentum balances; modified forms of the general mass and force-momentum balances; exact, closed-form solutions of the equations of motion; the Blasius solution for laminar flow along a flat surface; integral boundary layer solution for laminar flow along a flat surface; experimental results and extended solutions for laminar flow along a flat surface; laminar flow over wedges and discs, circular cylinders and solid spheres; the motion of bubbles and droplets; generalized methods and other geometrics. Part 3 Flow relative to dispersed solids: flow through porous media; the relative motion of fluids and dispersed solids.
