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. 3 (Ans. y= 12.336 kN/m², 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. 3 (Ans. y= 12.336 kN/m², 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)
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![Q4:
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/m², v = 1.193 x 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)
%3D](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe442aafe-6d72-481c-a5da-112edd1751eb%2F160677d8-2f6b-4026-ac59-2878f2de29fe%2F5efyl4n_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q4:
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/m², v = 1.193 x 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)
%3D
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