With velocity of 14 m/s in the 375 mm diameter pipe in the figure shown, determine the discharge in pipe 4 in m3/s. Assume f = 0.0404 for all pipes and neglect minor losses. The following are the properties of each pipe: Pipe 1 (Length=476 m, Diameter = 375 mm) Pipe 2 (Length=528 m, Diameter = 524 mm) Pipe 3 (Length=479 m, Diameter = 653 mm) Pipe 4 (Length=839 m, Diameter = 452 mm) Pipe 5 (Length=1435 m, Diameter = 435 mm) Round your answers in 4 decimal places.
With velocity of 14 m/s in the 375 mm diameter pipe in the figure shown, determine the discharge in pipe 4 in m3/s. Assume f = 0.0404 for all pipes and neglect minor losses. The following are the properties of each pipe: Pipe 1 (Length=476 m, Diameter = 375 mm) Pipe 2 (Length=528 m, Diameter = 524 mm) Pipe 3 (Length=479 m, Diameter = 653 mm) Pipe 4 (Length=839 m, Diameter = 452 mm) Pipe 5 (Length=1435 m, Diameter = 435 mm) Round your answers in 4 decimal places.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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With velocity of 14 m/s in the 375 mm diameter pipe in the figure shown, determine the discharge in pipe 4 in m3/s. Assume f = 0.0404 for all pipes and neglect minor losses.
The following are the properties of each pipe:
Pipe 1 (Length=476 m, Diameter = 375 mm)
Pipe 2 (Length=528 m, Diameter = 524 mm)
Pipe 3 (Length=479 m, Diameter = 653 mm)
Pipe 4 (Length=839 m, Diameter = 452 mm)
Pipe 5 (Length=1435 m, Diameter = 435 mm)
Round your answers in 4 decimal places.
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