Q8. Glycerin of density (1250 kg/m³) and viscosity (0.72 Pa.sec) flows through a pipe of (80 mm) in diameter. If the shear stress at the wall is (300 N/m?). Calculate : a-The pressure gradient along the flow. b-The average velocity in the pipe. c-The rate of discharge. d-The Reynolds No. of the flow.
Q8. Glycerin of density (1250 kg/m³) and viscosity (0.72 Pa.sec) flows through a pipe of (80 mm) in diameter. If the shear stress at the wall is (300 N/m?). Calculate : a-The pressure gradient along the flow. b-The average velocity in the pipe. c-The rate of discharge. d-The Reynolds No. of the flow.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![Q8. Glycerin of density (1250 kg/m³) and viscosity (0.72
Pa.sec) flows through a pipe of (80 mm) in diameter. If the
shear stress at the wall is (300 N/m?). Calculate :
a-The pressure gradient along the flow.
b-The average velocity in the pipe.
c-The rate of discharge.
d-The Reynolds No. of the flow.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa95d4c63-4371-4a30-bce1-4b35b9783bce%2Fd9ca6858-e65c-4aae-92f8-d7ad78c34312%2Fmp1u21g_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q8. Glycerin of density (1250 kg/m³) and viscosity (0.72
Pa.sec) flows through a pipe of (80 mm) in diameter. If the
shear stress at the wall is (300 N/m?). Calculate :
a-The pressure gradient along the flow.
b-The average velocity in the pipe.
c-The rate of discharge.
d-The Reynolds No. of the flow.
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