A fun toy for all ages is the bottle rocket. The one in the picture was made by adding fins to a standard soda bottle. The bottle is partly filled with water and then highly pressurized. Vwater? Air under pressure y=Y₁ water y=0 The density of the water is p = 1000 kg/m³. The height at the top of the water is y₁ = 0.075 meters, and the gauge pressure above the water is 894000 Pascals. We will treat the soda bottle as a "tank" so that the velocity of the water inside is negligible. The radius of the opening at the end of the water bottle is r = 0.011 meters. Determine all the following: The velocity of the water at the exit of the bottle: v = The mass rate of flow of the water at the exit: The volume rate of flow of the water at the exit: m/s kg/sec m³/sec

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A fun toy for all ages is the bottle rocket. The one in the picture was made by adding fins to a standard soda bottle. The bottle is partly filled with water and then highly pressurized.
Vwater?
Air under
pressure
y=Y₁
water
y=0
The density of the water is p = 1000 kg/m³. The height at the top of the water is y₁ = 0.075 meters, and the gauge pressure above the water is 894000 Pascals. We will treat the soda bottle as a
"tank" so that the velocity of the water inside is negligible. The radius of the opening at the end of the water bottle is r = 0.011 meters.
Determine all the following:
The velocity of the water at the exit of the bottle: v =
The mass rate of flow of the water at the exit:
The volume rate of flow of the water at the exit:
m/s
kg/sec
m³/sec
Transcribed Image Text:A fun toy for all ages is the bottle rocket. The one in the picture was made by adding fins to a standard soda bottle. The bottle is partly filled with water and then highly pressurized. Vwater? Air under pressure y=Y₁ water y=0 The density of the water is p = 1000 kg/m³. The height at the top of the water is y₁ = 0.075 meters, and the gauge pressure above the water is 894000 Pascals. We will treat the soda bottle as a "tank" so that the velocity of the water inside is negligible. The radius of the opening at the end of the water bottle is r = 0.011 meters. Determine all the following: The velocity of the water at the exit of the bottle: v = The mass rate of flow of the water at the exit: The volume rate of flow of the water at the exit: m/s kg/sec m³/sec
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