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Incompressible Fluid Mechanics

1. Statics
- 1.8. Exercises
2. Surface Tension
- 2.3. Exercises
3. Kinematics
- 3.5. Exercises
4. Balance equations
5. Bernoulli theorems and vorticity dynamics
- 5.5. Exercises
6. Exact solutions of Navier-Stokes equations
- 6.5. Exercises
7. Similitude
- 7.14. Exercises
8. Incompressible Aerodynamics
9. Boundary layer
- 9.5. Exercises
10. Instability and turbulence

Compressible Fluid Mechanics

11. Introduction to Compressible Fluid Mechanics
12. Governing equations
13. Thermodynamics
- 13.1. Perfect Ideal Gas (PIG)
- 13.2. Real Gas - Van der Waals
14. Jump conditions
15. Bernoulli’s theorem in compressible fluid mechanics
16. Vorticity equation
17. Entropy equation
18. Potential equation for irrotational compressible flows
19. Canonical flows
20. Riemann problem
- 20.1. P-system
- 20.2. Euler equations
21. Characteristics
22. Steady 2-dimensional flows
23. Acoustics

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Real Gas - Van der Waals

13.2. Real Gas - Van der Waals#

precedente

13.1. Perfect Ideal Gas (PIG)

successivo

14. Jump conditions

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