An oil with density of 900 kg/m2 and viscosity of 0.0002 m2/s flows upward through a 10 m long pipe segment inclined at 40℃ with the horizontal. The pressure a the upstream and downstream end of the pipe are 350 kPa and 250 kPa, respectively. The diameter of the pipe is 60 mm. Assume the flow is laminar. What is the head loss along the pipe segment? 3.77 4.9 5.35 6.1 What is the velocity of the fluid flow? 3.37 2.95 2.08 2.7 Which of the following gives the Reynold’s number? 810.9 624.21 1011.15 885.63
An oil with density of 900 kg/m2 and viscosity of 0.0002 m2/s flows upward through a 10 m long pipe segment inclined at 40℃ with the horizontal. The pressure a the upstream and downstream end of the pipe are 350 kPa and 250 kPa, respectively. The diameter of the pipe is 60 mm. Assume the flow is laminar. What is the head loss along the pipe segment? 3.77 4.9 5.35 6.1 What is the velocity of the fluid flow? 3.37 2.95 2.08 2.7 Which of the following gives the Reynold’s number? 810.9 624.21 1011.15 885.63
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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An oil with density of 900 kg/m2 and viscosity of 0.0002 m2/s flows upward through a 10 m long pipe segment inclined at 40℃ with the horizontal. The pressure a the upstream and downstream end of the pipe are 350 kPa and 250 kPa, respectively. The diameter of the pipe is 60 mm. Assume the flow is laminar.
What is the head loss along the pipe segment?
3.77
4.9
5.35
6.1
What is the velocity of the fluid flow?
3.37
2.95
2.08
2.7
Which of the following gives the Reynold’s number?
810.9
624.21
1011.15
885.63
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