Water is to be delivered from a reservoir to a lower level at a rate of 20 L/s as shown in the figure. It will flow through a 50-mm diameter pipe and will discharge into air at the exit. If the vertical distance from the water surface of the tank to the pipe exit is 12 meters, determine the total head loss from the water surface to the pipe exit. Water s0mm diameter pipe NOTE: This is a 2-part problem asking for the piezometric head at the pipe exít assuming the surface as the datum and the total head loss from the water surface to the pipe exit. Select one: a. 6.712 m b. 5.288 m C. 12 m d. 17.288 m
Water is to be delivered from a reservoir to a lower level at a rate of 20 L/s as shown in the figure. It will flow through a 50-mm diameter pipe and will discharge into air at the exit. If the vertical distance from the water surface of the tank to the pipe exit is 12 meters, determine the total head loss from the water surface to the pipe exit. Water s0mm diameter pipe NOTE: This is a 2-part problem asking for the piezometric head at the pipe exít assuming the surface as the datum and the total head loss from the water surface to the pipe exit. Select one: a. 6.712 m b. 5.288 m C. 12 m d. 17.288 m
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:Water is to be delivered from a reservoir to a lower level at a rate of 20 L/s as shown in
the figure. It will flow through a 50-mm diameter pipe and will discharge into air at the
exit. If the vertical distance from the water surface of the tank to the pipe exit is 12
meters, determine the total head loss from the water surface to the pipe exit.
Water
s0mm diameter pipe
NOTE: This is a 2-part problem asking for the piezometric head at the pipe exit
assuming the surface as the datum and the total head loss from the water surface to
the pipe exit.
Select one:
a. 6.712 m
b. 5.288 m
C. 12 m
d. 17.288 m
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