| Course Content |
Fluid Mechanics Definition and application areas , Basic concepts and dimensions, Basic Fluid Properties as Speed, Rotation, Viscosity, Surface Tension and Vapour Pressure and Flow Analysis Techniques, Pressure Balance and Measurement in compressible and incompressible stagnant flow, Hydrostatic pressure forces, Pressure Distribution for translational and rotational movements, Analysis of frictionless flow, Continuity of frictionless flow, Momentum Equations and Reynolds Transport Theorem, Bernoulli and Energy Equations in frictionless flow, Analysis of Frictional Flow, Laminar flow, Turbulent flows, Local losses in pipe connection, Multitubular Connection Systems, Dimensional analysis, Aerodynamic Modelling and Forces. |
