Fluid mechanics ERASMUS>MEC04
Aims of the course:
1. To familiarize students with the basic knowledge of fluid mechanics.
2. To familiarize students with the basic methods of solving practical problems in mechanics fluids including iterative tasks.
3. Improving skills in using a pocket calculator when calculating tasks.
4. Understanding flow phenomena in nature and technology.
5. Developing the skills of responsible cooperation and communication in a group.
Course coordinators
Learning outcomes
1. The Student knows the properties of liquids: density, specific gravity, viscosity, volume modulus, voltage surface.
2. The Student knows the ideal gas equation, speed sound fluid, fluid viscosity measurement methods.
3. The Student knows the fluid equation differential equation and form of this equation in the field of gravity.
4. The Student can complete the equilibrium equation of an element fluid in the field of gravity and calculate the pressure distribution in the incompressible fluid in the field of gravity, pressure distribution in an isothermal atmosphere and in standard atmosphere.
5. The Student knows Archimedes' law, fluid pressure on solid surfaces and conditions of stable swimming bodies.
6. The Student knows the equation of flow continuity: the local form and global, mass flow and expenditure volume.
7. The Student knows the Euler equation, the Bernoulli equation for non-light fluid and examples of applications of the Bernoulli equation.
8. The Student knows the Reynolds experience, division of flows laminar and turbulent, can calculate the number Reynolds and laminar flow in the pipe.
9. The Student knows the Darcy-Weisbach formula, Moody chart, he can calculate the flow in a straight pipe section.
10. The Student knows the Bernoulli equation for real liquids and local losses.
11. The Student can calculate the resistance of flowed bodies and drag coefficient.
12. The Student knows the elements of gas dynamics, accumulation parameters and critical parameters and Bernoulli equation for perfect gas.
13. The Student knows the Mach number, classification of compressible flows and flow in the nozzle.
14. The Student can calculate isothermal and adiabatic gas flow in a straight pipe section.
15. The Student can calculate the mass flow of gas from tank, knows what a throttled flow is.
16. The Student has the ability to self-study.
Additional information
Information on level of this course, year of study and semester when the course unit is delivered, types and amount of class hours - can be found in course structure diagrams of apropriate study programmes. This course is related to the following study programmes:
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: