= Water is stored in a pressurised container at a height HT 9 m. It then moves through a horizontal pipe which has a height Hp = 0.6 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 H; off the ground. Hj The density of water is p = pressure in the tank is pr 40 kPa. 1000 kg/m³, and the gauge =
= Water is stored in a pressurised container at a height HT 9 m. It then moves through a horizontal pipe which has a height Hp = 0.6 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 H; off the ground. Hj The density of water is p = pressure in the tank is pr 40 kPa. 1000 kg/m³, and the gauge =
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Transcribed Image Text:a)
Find the maximum height of the jet, H; (in metres)
Transcribed Image Text:Water is stored in a pressurised container at a height
HT = 9 m. It then moves through a horizontal pipe which
has a height Hp 0.6 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
H; off the ground.
=
Нт
The density of water is p =
pressure in the tank is pò = 40 kPa.
1000 kg/m³, and the gauge
H₂
Ï'
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