Week | Topic | Text |
4/1 | Course Information, Introduction, Review | Ch 3-7 |
| Internal Incompressible Viscous Flows | Ch 8 |
| fully developed laminar flow | |
4/8 | Internal Flows, cont. | " " |
| fully developed turbulent flow | |
| friction factor, Moody chart | |
4/15 | Internal Flows, cont. | " " |
| energy equation, major and minor losses | |
4/22 | pipe systems, flow meters | |
| External Incompressible Viscous Flows | Ch 9 |
| boundary layer flow | |
| MIDTERM I | |
4/29 | External Flows, cont. | " " |
| flat plate boundary layer, Blasius solution | |
| integral analysis | |
5/6 | External Flows, cont. | " " |
| boundary layer with pressure gradient | |
| flow about immersed bodies - drag and lift | |
5/13 | Compressible Flow | Ch 11 |
| review of thermodynamics, Mach number, speed of sound | |
| propagation of sound waves, Mach cone | |
5/20 | Compressible Flow, cont. | |
| isentropic flow with area variation | |
| MIDTERM II | |
5/27 | Compressible Flow, cont. (5/27 Memorial Day) | " " |
| normal shock wave | |
| converging-diverging nozzles | |
6/3 | Compressible Flow, cont. | " " |
| constant area adiabatic flow with friction: Fanno flow | |
| constant area frictionless flow with heat transfer: Rayleigh flow | |
6/12 | FINAL EXAM (11:30am - 2:29pm) | |