Student, who passed the course satisfactorily will be able to:
- Define and determine the fluid properties, express the differences between the solid and fluid behavior under the action of forces,
- Analyze hydrostatic forces on plane and curved surfaces, buoyancy, hydrostatics in moving and rotating containers,
- Visualize the fluid flow by knowing the definition of pathlines, streamlines and streaklines,
- Analyze fluid flow problems using control volume and system approaches, Reynolds transport theorem,
- Identify flows where Bernoulli equation is valid and apply versions of Bernoulli equation to solve fluid flow problems,
- Analyze certain types of flows using differential form of fluid flow equations, i.e. Navier Stokes equations,
- Apply dimensional analysis in physical problems and expressing the relations by means of non-dimensional dynamic similarity parameters,
- Analyze and solve problems related to viscous flow in pipes,
- Analyze flow problems with circulation, resistance (viscous, turbulent), boundary layers, and separation,
- Identify the working principles of turbo-machines and use the terminology in turbo-machinery industry.