Water is flowing through a pipe of 100 mm diameter under a pressure of 19.62 N/cm? (gauge) and with mean velocity of 3.0 m/s. Find the total head of the water at a cross-section, which is 8 m above the datum line. [Ans. 28.458 m]

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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Solve and draw also the
figures.
i. Water is flowing through a pipe of 100 mm diameter under a pressure of 19.62 N/cm² (gauge) and with
mean velocity of 3.0 m/s. Find the total head of the water at a cross-section, which is 8 m above the datum
[Ans. 28.458 m]
ii. A pipe, through which water is flowing is having diameters 40 cm and 20 cm at the cross-sections 1 and 2
respectively. The velocity of water at section 1 is given 5.0 m/s. Find the velocity head at the sections 1
[Ans. 1.274 m ; 20.387 m ; 0.628 m³/s]
line.
and 2 and also rate of discharge.
The water is flowing through a pipe having diameters 20 cm and 15 cm at sections 1 and 2 respectively.
iii. The rate of flow through pipe is 40 litres/s. The section 1 is 6 m above datum line and section 2 is 3 m
above the datum. If the pressure at section 1 is 29.43 N/em², find the intensity of pressure at section 2.
[Ans. 32.19 N/cm²]
Transcribed Image Text:Solve and draw also the figures. i. Water is flowing through a pipe of 100 mm diameter under a pressure of 19.62 N/cm² (gauge) and with mean velocity of 3.0 m/s. Find the total head of the water at a cross-section, which is 8 m above the datum [Ans. 28.458 m] ii. A pipe, through which water is flowing is having diameters 40 cm and 20 cm at the cross-sections 1 and 2 respectively. The velocity of water at section 1 is given 5.0 m/s. Find the velocity head at the sections 1 [Ans. 1.274 m ; 20.387 m ; 0.628 m³/s] line. and 2 and also rate of discharge. The water is flowing through a pipe having diameters 20 cm and 15 cm at sections 1 and 2 respectively. iii. The rate of flow through pipe is 40 litres/s. The section 1 is 6 m above datum line and section 2 is 3 m above the datum. If the pressure at section 1 is 29.43 N/em², find the intensity of pressure at section 2. [Ans. 32.19 N/cm²]
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