Water is stored in a pressurised container at a height HT= 8.4 m. It then moves through a horizontal pipe which has a height HP= 0.2 m off the ground. A fault occurs, and the water in the pipe is ejected vertically out of a valve, as shown in the figure. The jet reaches a maximum height Hj off the ground. The density of water is ρ=1000 kg/m^3, and the gauge pressure in the tank is pT= 45 kPa. a) Find the maximum height of the jet, Hj (in metres) b) Find the velocity at which the jet leaves the pipe (in m/s)
Water is stored in a pressurised container at a height HT= 8.4 m. It then moves through a horizontal pipe which has a height HP= 0.2 m off the ground. A fault occurs, and the water in the pipe is ejected vertically out of a valve, as shown in the figure. The jet reaches a maximum height Hj off the ground. The density of water is ρ=1000 kg/m^3, and the gauge pressure in the tank is pT= 45 kPa. a) Find the maximum height of the jet, Hj (in metres) b) Find the velocity at which the jet leaves the pipe (in m/s)
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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Water is stored in a pressurised container at a height HT= 8.4 m. It then moves through a horizontal pipe which has a height HP= 0.2 m off the ground. A fault occurs, and the water in the pipe is ejected vertically out of a valve, as shown in the figure. The jet reaches a maximum height Hj off the ground.
The density of water is ρ=1000 kg/m^3, and the gauge pressure in the tank is pT= 45 kPa.
a) Find the maximum height of the jet, Hj (in metres)
b) Find the velocity at which the jet leaves the pipe (in m/s)
Transcribed Image Text:H₂
Ho T
Hj
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