Ability to **describe** the continuum concept, **define** and **determine** the fluid properties, **express** the differences between the solid and the fluid behavior under the action of forces.

Ability to **solve** fluid static problems with the emphasis on the free body diagrams.

Ability to **describe** the fluid motion.

Ability to **formulate** the fluid flow problems. (Integral and differential formulation)

Ability to **solve** problems related to acceleration of a fluid particle, flow rates and average velocity.

Ability to** classify **the fluid flow, and **visualize** the fluid flow by knowing the definition of pathlines, streamlines and streaklines.

Ability to **describe** the fluid flow problems by control volume and system approaches and **solve** problems related to conservation of mass in integral form for a continuum.

Ability to **solve** the problems related to conservation of linear and angular momentum in integral form for a continuum.

Ability to **solve** the problems related to first and second laws of thermodynamics.

Ability to **solve** the Bernoulli equation and extended Bernoulli equation.

Ability to **apply** the Bernoulli equation to flow measurements.

Ability to** express **the motion of a differential fluid element.

Ability to **solve** the problems related to conservation of mass in differential form.

Ability to **solve** the problems related to conservation of momentum differential form for inviscid and viscous fluids.

Ability to **solve** problems by using laws of similitude.

Ability to **use** the dimensional analysis in physical problems and **express** the relations by means of non dimensional dynamic similarity parameters.

Ability to **analyze** the development of flow in closed conduits.

Ability to **solve** problems related to head losses in closed conduits.

Ability to **analyze** and solve problems related to viscous flow in pipes.