A hydrant nozzle shown in Fig. 4 has a diameter of 100 mm at the inlet (flange). At the outlet of the hydrant, the diameter reduces to 30 mm. The fluid velocity and gage pressure at the inlet are 2 m/s and 323 KPa, respectively. The density of water is 1000 kg/m³. Neglect the weight of the pipe. Assume the flow is steady and determine: a) The jet velocity at the outlet b) c) The horizontal force acting on the flange Pom The moment acting on the flange (Point)

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Problem 4 (10 D
A hydrant nozzle shown in Fig. 4 has a diameter of 100
mm at the inlet (flange). At the outlet of the hydrant, the diameter reduces
to 30 mm. The fluid velocity and gage pressure at the inlet are 2 m/s and 323
KPa, respectively. The density of water is 1000 kg/m³. Neglect the weight of
the pipe. Assume the flow is steady and determine:
a) The jet velocity at the outlet
b)
The horizontal force acting on the flange PORT
c) The moment acting on the flange (Point
T
8 m
V₂
Transcribed Image Text:Problem 4 (10 D A hydrant nozzle shown in Fig. 4 has a diameter of 100 mm at the inlet (flange). At the outlet of the hydrant, the diameter reduces to 30 mm. The fluid velocity and gage pressure at the inlet are 2 m/s and 323 KPa, respectively. The density of water is 1000 kg/m³. Neglect the weight of the pipe. Assume the flow is steady and determine: a) The jet velocity at the outlet b) The horizontal force acting on the flange PORT c) The moment acting on the flange (Point T 8 m V₂
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