a venturimeter with inlet and throat diameters 300 mm and 150 mm respectively is attached in a vertical pipe in which flow occurs from bottom to top. the distance between the point of entrance and to the point of throat of the venturimeter is 750 mm. if the difference of mercury levels in the two limbs of differential gauge is 220 mm, find the discharge passing through the vertical pipe. take co-efficient of discharge, Cd = 0.98.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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a venturimeter with inlet and throat diameters 300 mm and 150 mm respectively is attached in a vertical pipe in which flow occurs from bottom to top. the distance between the point of entrance and to the point of throat of the venturimeter is 750 mm. if the difference of mercury levels in the two limbs of differential gauge is 220 mm, find the discharge passing through the vertical pipe. take co-efficient of discharge, Cd = 0.98.

13. A venturimeter with inlet and throat diameters
300 mm and 150 mm respectively is attached in a
vertical pipe in which flow occurs from bottom to
top. The distance between the point of entrance
Transcribed Image Text:13. A venturimeter with inlet and throat diameters 300 mm and 150 mm respectively is attached in a vertical pipe in which flow occurs from bottom to top. The distance between the point of entrance
and to the point of throat of the venturimeter is
750 mm. If the difference of mercury levels in
the two limbs of differential gauge is 220 mm,
find the discharge passing through the vertical
pipe. Take co-efficient of discharge, C, = 0.98.
[Ans. 0.146 m³/s]
Transcribed Image Text:and to the point of throat of the venturimeter is 750 mm. If the difference of mercury levels in the two limbs of differential gauge is 220 mm, find the discharge passing through the vertical pipe. Take co-efficient of discharge, C, = 0.98. [Ans. 0.146 m³/s]
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