Water stands at a depth H = 19.5m in a large open tank whose side walls are vertical. A hole is made in one of the walls at a depth of h = 4.50m, below the top water surface.
Part A: At what distance A from the foot at the wall does the emerging stream strike the floor?
Part B: If you make a hole at a certain position, R becomes the maximum value. Find maximum value of R.
Water stands at a depth H = 19.5m in a large open tank whose side walls...
The figure shows a stream of water flowing through a hole at depth h = 9.66 cm in a tank holding water to height H = 31.1 cm. (a) At what distance x does the stream strike the floor? (b) At what depth should a second hole be made to give the same value of x? (c) At what depth should a hole be made to maximize x?
The figure shows a stream of water flowing through a hole at depth h = 19.5 cm in a tank holding water to height H = 57.8 cm. (a) At what distance x does the stream strike the floor? (b) At what depth should a second hole be made to give the same value of x? (c) At what depth should a hole be made to maximize x?
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A large storage tank, open at the top and filled with water, develops a small hole in its side at a point 17.0 m below the water level. The rate of flow from the leak is found to be 2.20 x 10-3 m/min. ind (a) Determine the speed (in m/s) at which the water leaves the hole. m/s (b) Determine the diameter of the hole in mm). mm (c) What If? If the hole is 10.0 m above the ground...
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A large storage tank, open at the top and filled with water, develops a small hole in its side at a point 15.4 m below the water level. The rate of flow from the leak is found to be 3.00 x 10-3 m3/min. 1 (a) Determine the speed (in m/s) at which the water leaves the hole. 17.38 m/s (b) Determine the diameter of the hole (in mm). How is the flow rate related to the area of the hole...