1. Euler's equation of hydrostatic, power on the desktop, Pascal's law
2. Euler's equation of hydrodynamics, the application possibilities of its integration
3. Continuity equation for one and three dimensional flow, derivation
4. Bernoulli's equation for an ideal fluid, derivation and practical
application
5. Bernoulli's equation for compressible fluid, derivation and practical
application
6. Navier-Stokes equations, and the derivation of the solution, including the numerical
7. Bernoulli's equation for real fluid, friction losses, local losses in circular and non-circular pipe
8. Laminar flow of Newtonian and non-Newtonian fluids in a circular
pipe in a rectangular gap in the ring, the sag along the vertical wall
9. Turbulent flow, turbulence, characteristics and mathematical
description of turbulent flow using mathematical statistics
10. Bernoulli's equation for a rotating channel, centrifugal
pump characteristics, power, efficiency
11. The resistance elements, boundary layer, aerodynamics, flow profiles, Karman
Rotary way
12. Change of momentum theorem, applications
13. Physical similarity theory and modeling
2. Euler's equation of hydrodynamics, the application possibilities of its integration
3. Continuity equation for one and three dimensional flow, derivation
4. Bernoulli's equation for an ideal fluid, derivation and practical
application
5. Bernoulli's equation for compressible fluid, derivation and practical
application
6. Navier-Stokes equations, and the derivation of the solution, including the numerical
7. Bernoulli's equation for real fluid, friction losses, local losses in circular and non-circular pipe
8. Laminar flow of Newtonian and non-Newtonian fluids in a circular
pipe in a rectangular gap in the ring, the sag along the vertical wall
9. Turbulent flow, turbulence, characteristics and mathematical
description of turbulent flow using mathematical statistics
10. Bernoulli's equation for a rotating channel, centrifugal
pump characteristics, power, efficiency
11. The resistance elements, boundary layer, aerodynamics, flow profiles, Karman
Rotary way
12. Change of momentum theorem, applications
13. Physical similarity theory and modeling