The fluid in the figure is water, with the surface 10m above the datum. The pipe is 15cm in diameter and the head losses are as follows: from 1 to 2, 0m; from 2 to 3, 0.60m; from 3 to 4, 2m; and from 4 to 5, 0.30m. 1.Determine the velocity of flow in the pipe in m/s. 2.Determine the discharge Q in m^3/s. 3.How many centimeters above the center of the pipe will water stand in piezometer tube 3? 4.How many centimeters above the center of the pipe will water stand in piezometer tube 4
The fluid in the figure is water, with the surface 10m above the datum. The pipe is 15cm in diameter and the head losses are as follows: from 1 to 2, 0m; from 2 to 3, 0.60m; from 3 to 4, 2m; and from 4 to 5, 0.30m. 1.Determine the velocity of flow in the pipe in m/s. 2.Determine the discharge Q in m^3/s. 3.How many centimeters above the center of the pipe will water stand in piezometer tube 3? 4.How many centimeters above the center of the pipe will water stand in piezometer tube 4
Residential Construction Academy: House Wiring (MindTap Course List)
4th Edition
ISBN:9781285852225
Author:Gregory W Fletcher
Publisher:Gregory W Fletcher
Chapter1: Residential Workplace Safety
Section: Chapter Questions
Problem 14RQ
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The fluid in the figure is water, with the surface 10m above the datum. The pipe is 15cm in diameter and the head losses are as follows: from 1 to 2, 0m; from 2 to 3, 0.60m; from 3 to 4, 2m; and from 4 to 5, 0.30m.
1.Determine the velocity of flow in the pipe in m/s.
2.Determine the discharge Q in m^3/s.
3.How many centimeters above the center of the pipe will water stand in piezometer tube 3?
4.How many centimeters above the center of the pipe will water stand in piezometer tube 4?
![water surface1
piezometers-
reservoir
jet in air
2
3
Pipe discharging from a reservoir](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F6af77800-d153-49a5-bb9f-19348e83a7bd%2Fef35b203-4894-40ff-96ac-b9a021cf5b04%2F5zq4kca_processed.jpeg&w=3840&q=75)
Transcribed Image Text:water surface1
piezometers-
reservoir
jet in air
2
3
Pipe discharging from a reservoir
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