1 |
1 Fundamentals, Definitions, Mathematical basics (scalars, vectors, gradian and divergence operators, Gauss and Stokes theorem )
2 Characteristics of the flow: Steady/Unsteady, Uniform/Nonuniform, Stationary/Nonstationary, Compressible/Incompressible, Viscous/Inviscous, Dimension of the flow, and Newtonian and NonNewtonian flows
3 Velocity field, Acceleration, Streamlines, trajectories, Lagrangian and Eulerian concept of fluid flow
4 Fluid Statics: hydrostatic law, manometers, pressure calculations, absolute, gage pressure concepts
5 Fluid Statics (Continue)
6 Fluid force on objects submerged in fluid, application point of resultant force, moments
7 Midterm
8 Integral form of fluid equations and Reynolds theorem: Conservation of mass and momentum, conservation of energy
9 Differential Control volume and derivation of Bernoulli equation
10 Energy conservation and Bernoulli Law
11 Pressure: Static pressure, stagnation pressure, dynamic pressure, atmospheric pressure and Pressure measurements: Static probe, Wall probe, Pea-toe tube
12 Rotational motion of the fluid : Vortex flows (Free vortex and forced vortex), vorticity concept, examples from atmospheric flows
13 Stream function and potential function concepts
14 Elementary flows and Superposition of elementary flows |