Calculate (a) the mass flow rate through the system and (b) the force that is required to hold the vertical pipe configuration, as shown below, in place. The fluid in the pipe rises into the side branch tube to a height of 0.9 m. Assume that the weights of the vertical pipe configuration and the side branch attachment are negligible, the water between the jet between the orifice plate and the vena contracta weights 18N. The vena contracta is the position where all the streamline becomes parallel. 250 mm 0.9 m 225 mm 200 mm dia orifice 75 mm 150 mm dia, vena contracta

Elements Of Electromagnetics
7th Edition
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Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Calculate (a) the mass flow rate through the system and (b) the force that is required to hold the
vertical pipe configuration, as shown below, in place. The fluid in the pipe rises into the side branch
tube to a height of 0.9 m. Assume that the weights of the vertical pipe configuration and the side
branch attachment are negligible, the water between the jet between the orifice plate and the vena
contracta weights 18N. The vena contracta is the position where all the streamline becomes parallel.
个
250 mm
0.9 m
225 mm
200 mm dia orifice
75 mm
150 mm dia,
vena contracta
Transcribed Image Text:Calculate (a) the mass flow rate through the system and (b) the force that is required to hold the vertical pipe configuration, as shown below, in place. The fluid in the pipe rises into the side branch tube to a height of 0.9 m. Assume that the weights of the vertical pipe configuration and the side branch attachment are negligible, the water between the jet between the orifice plate and the vena contracta weights 18N. The vena contracta is the position where all the streamline becomes parallel. 个 250 mm 0.9 m 225 mm 200 mm dia orifice 75 mm 150 mm dia, vena contracta
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