Fundamentals of Fluid Mechanics, Student Solutions Manual, Volume 2A look at fundamental aspects of fluid motion, including important fluid properties, regimes of flow, pressure variations in fluids at rest and in motion, fluid kinematics, and methods of flow description and analysis. This book describes the essential elements of kinematics, including Eulerian and Lagrangian mathematical descriptions of flow phenomena, and indicates the vital relationship between the two views. |
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Page 2
... Temperature ( ° F ) Ρ γ μ V σ ( slugs / ft3 ) ( lb / ft3 ) ( lbs / ft2 ) ( ft2 / s ) ( lb / ft ) Vapor Pressure , Pv [ lb / in.2 ( abs ) ] Bulk Modulus , b E , ( lb / in.2 ) Carbon tetrachloride 68 Ethyl alcohol 68 3.09 99.5 2.00 E - 5 ...
... Temperature ( ° F ) Ρ γ μ V σ ( slugs / ft3 ) ( lb / ft3 ) ( lbs / ft2 ) ( ft2 / s ) ( lb / ft ) Vapor Pressure , Pv [ lb / in.2 ( abs ) ] Bulk Modulus , b E , ( lb / in.2 ) Carbon tetrachloride 68 Ethyl alcohol 68 3.09 99.5 2.00 E - 5 ...
Page 3
... temperature . " Values of the specific heat ratio depend only slightly on temperature . TABLE 1.8 Approximate Physical Properties of Some Common Gases at Standard Atmospheric Pressure ( SI Units ) Density , Specific Weight , Dynamic ...
... temperature . " Values of the specific heat ratio depend only slightly on temperature . TABLE 1.8 Approximate Physical Properties of Some Common Gases at Standard Atmospheric Pressure ( SI Units ) Density , Specific Weight , Dynamic ...
Page 2-13
... temperature of 80 ° F , and the heated air inside the balloon has a temperature of 150 ° F . As- sume the inside and outside air to be at standard atmospheric pressure of 14.7 psia . Determine the required volume of the balloon to ...
... temperature of 80 ° F , and the heated air inside the balloon has a temperature of 150 ° F . As- sume the inside and outside air to be at standard atmospheric pressure of 14.7 psia . Determine the required volume of the balloon to ...
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Common terms and phrases
A₁ A₂ V₂ acceleration Assume average velocity Bernoulli blade boundary layer bulk modulus C₂ channel component constant continuity equation control volume cylinder density depth diameter dimensionless drag exit F₁ F₂ flow field flow is laminar Flow past fluid force ft.lb ft/s ft/s² ft² ft³ gate Hence horizontal hydraulic jump ideal gas law incompressible K₁ kPa abs laminar flow lb/ft³ length Linear momentum liquid m³/s Ma₂ momentum equation Moody chart N/m² nozzle obtain P₁ P₂ particles pi terms pipe plate pressure drop psia pump Q₁ Q₂ R₁ radial Reynolds number rotor shaft shown in Fig slugs specific weight stagnation point stream function streamlines surface T₂ Table tank temperature turbine U₁ U₂ V₁ V₂ Viscosity viscous effects W₁ W₂ Water flows width Y₂ Z₁ Z₂ гд ди