1 The relative density of a fluid is 1.26 and its dynamic viscosity is 1.50 Pa.s. Calculate its (i) specific weight and (ii) kinematic viscosity. (Ans. y= 12.336 kN/m³, v = 1.193 × 10-³ m²/s) 2 From a table of properties of liquids it was found that, at 20°C, carbon tetrachloride has a dynamic viscosity of 9.67 × 10* Pa.s and a kinematic viscosity of 6.08 × 10-7 m²/s. Calculate its (i) relative density and (ii) specific weight. (Ans. RD = 1.5936, y= 15.602 kN/m³)
1 The relative density of a fluid is 1.26 and its dynamic viscosity is 1.50 Pa.s. Calculate its (i) specific weight and (ii) kinematic viscosity. (Ans. y= 12.336 kN/m³, v = 1.193 × 10-³ m²/s) 2 From a table of properties of liquids it was found that, at 20°C, carbon tetrachloride has a dynamic viscosity of 9.67 × 10* Pa.s and a kinematic viscosity of 6.08 × 10-7 m²/s. Calculate its (i) relative density and (ii) specific weight. (Ans. RD = 1.5936, y= 15.602 kN/m³)
Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)
8th Edition
ISBN:9781305387102
Author:Kreith, Frank; Manglik, Raj M.
Publisher:Kreith, Frank; Manglik, Raj M.
Chapter5: Analysis Of Convection Heat Transfer
Section: Chapter Questions
Problem 5.13P: 5.13 The torque due to the frictional resistance of the oil film between a rotating shaft and its...
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