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Medium oil having a sp.gr. of 0.90 flows through 120 mm diameter pipe with a mean velocity of 5.3 m/s and a friction factor of 0.01. Oil has an absolute viscosity of 0.04 Pa.s. Compute the velocity at the center. a) 7 m/s c) 5 m/s b) 6 m/s d) 8 m/s Compute the shear stress at the wall of the pipe. a) 48.62 N/m2 c) 31.60 N/m2 b) 59.47 N/m2 d) 52.31 N/m² Compute the velocity at 40 mm from the center of the pipe. a) 5.485 m/s c) 7.458 m/s b) 6.325 m/s d) 8.569 m/s

Medium oil having a sp.gr. of 0.90 flows through 120 mm diameter pipe with a mean velocity of 5.3 m/s and a friction factor of 0.01. Oil has an absolute viscosity of 0.04 Pa.s. Compute the velocity at the center. a) 7 m/s c) 5 m/s b) 6 m/s d) 8 m/s Compute the shear stress at the wall of the pipe. a) 48.62 N/m2 c) 31.60 N/m2 b) 59.47 N/m2 d) 52.31 N/m² Compute the velocity at 40 mm from the center of the pipe. a) 5.485 m/s c) 7.458 m/s b) 6.325 m/s d) 8.569 m/s

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Medium oil having a sp.gr. of 0.90 flows through a 120 mm diameter pipe with a mean velocity of 5.3 m/s and a friction factor of 0.01. Oil has an absolute viscosity of 0.04 Pa-s. Compute the velocity at the center. a) 7 m/s c) 5 m/s b) 6 m/s d) 8 m/s 2 Compute the shear stress at the wall of the pipe. a) 48.62 N/m2 c) 31.60 N/m² b) 59.47 N/m2 d) 52.31 N/m² Compute the velocity at 40 mm from the center of the pipe. a) 5.485 m/s b) 6.325 m/s c) 7.458 m/s d) 8.569 m/s
Transcribed Image Text:Medium oil having a sp.gr. of 0.90 flows through a 120 mm diameter pipe with a mean velocity of 5.3 m/s and a friction factor of 0.01. Oil has an absolute viscosity of 0.04 Pa-s. Compute the velocity at the center. a) 7 m/s c) 5 m/s b) 6 m/s d) 8 m/s 2 Compute the shear stress at the wall of the pipe. a) 48.62 N/m2 c) 31.60 N/m² b) 59.47 N/m2 d) 52.31 N/m² Compute the velocity at 40 mm from the center of the pipe. a) 5.485 m/s b) 6.325 m/s c) 7.458 m/s d) 8.569 m/s
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