A 100-m long pipe in a huge canister rises up to the surface at a 35-degree angle from the horizontal. The pressure at the bottom is 55 times that of atmospheric pressure (Patm = 101325 %3! Pa). a) If the speed of the fluid at the bottom of this canister is 10 m/s, what is the speed of the fluid at the surface of this canister The density of this fluid is 1030 kg/m3 and g = 9.8 m/s2. b) How would one adjust the end of the pipe so that the fluid would emerge 10 times faster? (No calculation is involved).

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A 100-m long pipe in a huge canister rises up to the surface at a 35-degree angle from the
horizontal. The pressure at the bottom is 55 times that of atmospheric pressure (Patm = 101325
%3D
Pa).
a) If the speed of the fluid at the bottom of this canister is 10 m/s, what is the speed of the fluid at
the surface of this canister! The density of this fluid is 1030 kg/m3 and g = 9.8 m/s².
%3D
b) How would one adjust the end of the pipe so that the fluid would emerge 10 times faster? (No
calculation is involved).
Transcribed Image Text:A 100-m long pipe in a huge canister rises up to the surface at a 35-degree angle from the horizontal. The pressure at the bottom is 55 times that of atmospheric pressure (Patm = 101325 %3D Pa). a) If the speed of the fluid at the bottom of this canister is 10 m/s, what is the speed of the fluid at the surface of this canister! The density of this fluid is 1030 kg/m3 and g = 9.8 m/s². %3D b) How would one adjust the end of the pipe so that the fluid would emerge 10 times faster? (No calculation is involved).
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