why is the ratio 1/10000 A large cylindrical tank of height H and radius R is filled with water as shown. A small circular hole (of radius Rhole) is punched in the side of the container at a height h and the fluid begins to drain out of the tank. You may assume that R = 100 Rhole- H. 11. Determine the ratio of the speed of the water at the top of the tank to that of the speed of the water exiting the hole (top ), What basic physical principle are you using to determine this? Explain your reasoning. Vhole
why is the ratio 1/10000 A large cylindrical tank of height H and radius R is filled with water as shown. A small circular hole (of radius Rhole) is punched in the side of the container at a height h and the fluid begins to drain out of the tank. You may assume that R = 100 Rhole- H. 11. Determine the ratio of the speed of the water at the top of the tank to that of the speed of the water exiting the hole (top ), What basic physical principle are you using to determine this? Explain your reasoning. Vhole
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![why is the ratio 1/10000
A large cylindrical tank of height H and radius R is filled
with water as shown. A small circular hole (of radius
Rhole) is punched in the side of the container at a height
h and the fluid begins to drain out of the tank. You may
assume that R = 100 Rhole:
11. Determine the ratio of the speed of the water at
the top of the tank to that of the speed of the
water exiting the hole (-
physical principle are you using to determine
this? Explain your reasoning.
h
Vrop
-). What basic
Vhole](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F981e9669-a96e-40f4-895a-846175e32aac%2F1f82b22b-7ce1-43e4-9383-3ffff22b752e%2Fzrr4tdr_processed.jpeg&w=3840&q=75)
Transcribed Image Text:why is the ratio 1/10000
A large cylindrical tank of height H and radius R is filled
with water as shown. A small circular hole (of radius
Rhole) is punched in the side of the container at a height
h and the fluid begins to drain out of the tank. You may
assume that R = 100 Rhole:
11. Determine the ratio of the speed of the water at
the top of the tank to that of the speed of the
water exiting the hole (-
physical principle are you using to determine
this? Explain your reasoning.
h
Vrop
-). What basic
Vhole
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