diameter of cylindrical tank = 2 meters depth of cylindrical tank = 8 meters diameter of sharp-edge orifice = 100 mm The standard orifice is placed at the side 1 meter above the bottom. When at rest, the depth of water is 5 meters C = 0.594 Considering that the volume of water is constant, what is the rate of discharges from the standard orifice: a. When the cylindrical tank has a constant velocity of 3 m/sec in the opposite direction of the jet. b. When the cylindrical tank has a constant acceleration of 6 m/sec^2 in the opposite direction of the jet. Consider the figures below*
diameter of cylindrical tank = 2 meters depth of cylindrical tank = 8 meters diameter of sharp-edge orifice = 100 mm The standard orifice is placed at the side 1 meter above the bottom. When at rest, the depth of water is 5 meters C = 0.594 Considering that the volume of water is constant, what is the rate of discharges from the standard orifice: a. When the cylindrical tank has a constant velocity of 3 m/sec in the opposite direction of the jet. b. When the cylindrical tank has a constant acceleration of 6 m/sec^2 in the opposite direction of the jet. Consider the figures below*
Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)
8th Edition
ISBN:9781305387102
Author:Kreith, Frank; Manglik, Raj M.
Publisher:Kreith, Frank; Manglik, Raj M.
Chapter5: Analysis Of Convection Heat Transfer
Section: Chapter Questions
Problem 5.32P
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diameter of cylindrical tank = 2 meters
depth of cylindrical tank = 8 meters
diameter of sharp-edge orifice = 100 mm
The standard orifice is placed at the side 1 meter above the bottom.
When at rest, the depth of water is 5 meters
C = 0.594
Considering that the volume of water is constant, what is the rate of discharges from the standard orifice:
a. When the cylindrical tank has a constant velocity of 3 m/sec in the opposite direction of the jet.
b. When the cylindrical tank has a constant acceleration of 6 m/sec^2 in the opposite direction of the jet.
Consider the figures below*
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