As given in the figure, a cylindrical 125 cm high and 89 cm diameter The inside of the tank is initially completely filled with oil. Then, a 1.25cm diameter hole is drilled on the bottom edge of the tank and the oil begins to drain from this hole. Oil outlet speed 2gh given as. (h is the variable height of the oil in the tank from the hole center and g is the acceleration of gravity). From the bottom of the oil level in the tank Calculate the time it takes to fall to a height of 15 cm as
As given in the figure, a cylindrical 125 cm high and 89 cm diameter The inside of the tank is initially completely filled with oil. Then, a 1.25cm diameter hole is drilled on the bottom edge of the tank and the oil begins to drain from this hole. Oil outlet speed 2gh given as. (h is the variable height of the oil in the tank from the hole center and g is the acceleration of gravity). From the bottom of the oil level in the tank Calculate the time it takes to fall to a height of 15 cm as
Refrigeration and Air Conditioning Technology (MindTap Course List)
8th Edition
ISBN:9781305578296
Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson
Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson
Chapter37: Air Distribution And Balance
Section: Chapter Questions
Problem 10RQ: What is the component that distributes air in the conditioned space?
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As given in the figure, a cylindrical 125 cm high and 89 cm diameter The inside of the tank is initially completely filled with oil. Then, a 1.25cm diameter hole is drilled on the bottom edge of the tank and the oil begins to drain from this hole. Oil outlet speed 2gh given as. (h is the variable height of the oil in the tank from the hole center and g is the acceleration of gravity). From the bottom of the oil level in the tank Calculate the time it takes to fall to a height of 15 cm as [s].
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