Engineering Fluid Mechanics |
Contents
CHAPTER TWO FLUID PROPERTIES | 12 |
CHAPTER THREE FLUID STATICS | 26 |
10 | 64 |
Copyright | |
6 other sections not shown
Common terms and phrases
acceleration airfoil anemometer applied Assume atmospheric pressure basic bend Bernoulli equation boundary layer Calculate channel coefficient constant continuity equation control surface control volume curve cylinder density depth Determine diameter dimensional analysis dimensionless direction discharge downstream drag elevation energy equation EXAMPLE exit FIGURE flow pattern flow rate fluid mechanics ft/sec given head loss horizontal hydraulic hydraulic jump hydrostatic hydrostatic force kg/m³ laminar liquid m²/s m³/s Mach number manometer mass maximum meter momentum equation N/m³ normal nozzle obtain orifice P₁ pipe Pitot tube plate PROBLEMS prototype pump rate of flow ratio reservoir resistance Reynolds number rotation s/m² shear stress shock wave shown in Fig Solution specific weight speed static streamlines tank temperature tion tube turbine turbulent upstream V₁ V₂ vane variables velocity distribution venturi meter vertical viscous weir