5. The Water is flowing through a pipe having diameter 360 mm and 216 mm at the bottom and upper end respectively. The intensity of pressure at the bottom end is 25.85 N/cm2 and the pressure at the upper end is 11.6325 N/cm2 & the rate of flow through the pipe is 55 lit/s. Draw a neat diagram and determine the following:
1.Velocity of flow at bottom of the pipe in m/s. 2. Velocity of flow at top of the pipe in m/s.
3. The difference in datum head between top & bottom in meter of water.
4. The difference of velocity head between the top to bottom end in meter of water.
5. The pressure head at the bottom in meter of water
5. The Water is flowing through a pipe having diameter 360 mm and 216 mm at the bottom and upper end respectively. The intensity of pressure at the bottom end is 25.85 N/cm2 and the pressure at the upper end is 11.6325 N/cm2 & the rate of flow through the pipe is 55 lit/s. Draw a neat diagram and determine the following: 1.Velocity of flow at bottom of the pipe in m/s. 2. Velocity of flow at top of the pipe in m/s. 3. The difference in datum head between top & bottom in meter of water. 4. The difference of velocity head between the top to bottom end in meter of water. 5. The pressure head at the bottom in meter of water
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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5. The Water is flowing through a pipe having diameter 360 mm and 216 mm at the bottom and upper end respectively. The intensity of pressure at the bottom end is 25.85 N/cm2 and the pressure at the upper end is 11.6325 N/cm2 & the rate of flow through the pipe is 55 lit/s. Draw a neat diagram and determine the following:
1.Velocity of flow at bottom of the pipe in m/s.
2. Velocity of flow at top of the pipe in m/s.
3. The difference in datum head between top & bottom in meter of water.
4. The difference of velocity head between the top to bottom end in meter of water.
5. The pressure head at the bottom in meter of water.
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