Fluid properties; statics; kinematics; ideal gas law; conservation of mass; linear momentum and Newton’s Second Law; conservation of energy; Bernoulli’s equation; control volume analysis, similitude and hydraulic models; homogeneous flow in pipes; fluid drag, boundary layer basics. Credits 3. 3 Lecture Hours.
Fluid properties; statics; kinematics; ideal gas law; conservation of mass; linear momentum and Newton’s Second Law; conservation of energy; Bernoulli’s equation; control volume analysis, similitude and hydraulic models; homogeneous flow in pipes; fluid drag, boundary layer basics. Credits 3. 3 Lecture Hours.
