Water flows from a tank to atmosphere along a pipe length 40 m. At inlet pipe has a 17 m length and 50 mm diameter. The pipe then enlarge suddenly to 75 mm diameter the rest of the length. Given a coefficient of friction, f = 0.04 for both pipe and discharge along a pipe is 2.8 x 10-³ m³/s. a) List of the losses of energy may occurs along a pipe. b) Calculate the water level difference from the surface to the outlet

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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12) Water flows from a tank to atmosphere along a pipe length 40 m. At inlet pipe has a 17 m
length and 50 mm diameter. The pipe then enlarge suddenly to 75 mm diameter the rest of
the length. Given a coefficient of friction, f = 0.04 for both pipe and discharge along a pipe is
2.8 x 10-³ m³/s.
a)
List of the losses of energy may occurs along a pipe.
b)
Calculate the water level difference from the surface to the outlet
(Answer: 6.747 m)
Transcribed Image Text:12) Water flows from a tank to atmosphere along a pipe length 40 m. At inlet pipe has a 17 m length and 50 mm diameter. The pipe then enlarge suddenly to 75 mm diameter the rest of the length. Given a coefficient of friction, f = 0.04 for both pipe and discharge along a pipe is 2.8 x 10-³ m³/s. a) List of the losses of energy may occurs along a pipe. b) Calculate the water level difference from the surface to the outlet (Answer: 6.747 m)
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