The hydraulic jump has a depth of 5 m at the downstream end, and the velocity is V2=1.75 m/s. If the channel is 2 m wide, determine the energy head lost during the jump.
The hydraulic jump has a depth of 5 m at the downstream end, and the velocity is V2=1.75 m/s. If the channel is 2 m wide, determine the energy head lost during the jump.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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The hydraulic jump has a depth of 5 m at the downstream end, and the velocity is V2=1.75 m/s. If the channel is 2 m wide, determine the energy head lost during the jump.
![The hydraulic jump has a depth of 5 m at the downstream end, and the velocity is V2=1.75 m/s. If
the channel is 2 m wide, determine the energy head lost during the jump.
V2
5m
V1
O a. 11.3 m
O b. 16.9 m
O c. 7.8 m
O d. 22.1 m
O e. 5.5 m
O f. 17.3 m
O g. 2.5 m
O h. 28.3 m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd630fe6e-09b7-4095-aae4-f4e39bceaedc%2F1d515449-af48-4b69-b426-c308fddfde16%2Fenonr1t_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The hydraulic jump has a depth of 5 m at the downstream end, and the velocity is V2=1.75 m/s. If
the channel is 2 m wide, determine the energy head lost during the jump.
V2
5m
V1
O a. 11.3 m
O b. 16.9 m
O c. 7.8 m
O d. 22.1 m
O e. 5.5 m
O f. 17.3 m
O g. 2.5 m
O h. 28.3 m
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