1. | Lecture 1 | Introduction and Kinematics | ||
2. | Lecture 2 | |||
3. | Lecture 3 | Conservation of mass, momentum, and energy | ||
4. | Lecture 4 | |||
5. | Lecture 5 | Navier-Stokes equations and Exact solutions | ||
6. | Lecture 6 | |||
7. | Lecture 7 | Rotation and Vorticity | ||
8. | Lecture 8 | |||
9. | Lecture 9 | High/Low Reynolds number flows | ||
10. | Lecture 10 | |||
11. | Lecture 11 | Boundary layer theory | ||
12. | Lecture12 | |||
13. | Lecture13 | Friction and form drags | ||
14. | Lecture14 | |||
15. | Lecture15 | Euler equations and Bernoulli equation | ||
16. | Lecture16 | |||
17. | Lecture17 | Potential flows in an unbounded domain | ||
18. | Lecture18 | |||
19. | Lecture19 | Panel method | ||
20. | Lecture20 | |||
21. | Lecture21 | Vortex dynamics: Point vortices and vortex sheet | ||
22. | Lecture22 | |||
23. | Lecture23 | Hydrofoil theory | ||
24. | Lecture24 | |||
25. | Lecture25 | Free surface boundary conditions and linear waves | ||
26. | Lecture26 | |||
27. | Lecture27 | Wave-body interaction |