Engineering Fluid MechanicsGood,No Highlights,No Markup,all pages are intact, Slight Shelfwear,may have the corners slightly dented, may have slight color changes/slightly damaged spine. |
Contents
CHAPTER FIVE PRESSURE VARIATION | 70 |
CHAPTER EIGHT DIMENSIONAL ANALYSIS | 215 |
CHAPTER FIFTEEN VARIED FLOW IN OPEN CHANNELS | 477 |
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acceleration airfoil anemometer answer applied Assume atmospheric pressure basic 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 force acting ft/sec gage given h₁ head loss hence horizontal hydraulic hydraulic jump hydrostatic hydrostatic force irrotational kg/m³ lbf/ft³ liquid m³/s Mach number manometer mass meter momentum equation normal nozzle obtain orifice pipe plate pounds mass problem propeller prototype psia pump rate of flow ratio resistance Reynolds number rotation shear stress shock wave shown in Fig Solution specific weight speed streamlines supersonic tank temperature tube turbine upstream V₁ vane variables velocity distribution vertical viscous weir zero