A certain part of cast iron piping of a water distribution system involves a parallel section. Both parallel pipes have a diameter of 25 cm, and the flow is fully turbulent. One of the branches (pipe A) is 1200 m long while the other branch (pipe B) is 3200 m long. If the flow rate through pipe A is 0.3m /s, determine the flow rate through pipe B. Disregard minor losses and assume the water temperature to be 20°C. 1200 m 0.3 т3/s A 25 cm 25 cm В 3200 m
A certain part of cast iron piping of a water distribution system involves a parallel section. Both parallel pipes have a diameter of 25 cm, and the flow is fully turbulent. One of the branches (pipe A) is 1200 m long while the other branch (pipe B) is 3200 m long. If the flow rate through pipe A is 0.3m /s, determine the flow rate through pipe B. Disregard minor losses and assume the water temperature to be 20°C. 1200 m 0.3 т3/s A 25 cm 25 cm В 3200 m
Elements Of Electromagnetics
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Publisher:Sadiku, Matthew N. O.
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
Transcribed Image Text:A certain part of cast iron piping of a water distribution system involves a parallel section. Both parallel pipes have a diameter of 25 cm, and the
flow is fully turbulent. One of the branches (pipe A) is 1200 m long while the other branch (pipe B) is 3200 m long. If the flow rate through pipe A
is 0.3m /s, determine the flow rate through pipe B. Disregard minor losses and assume the water temperature to be 20°C.
1200 m
0.3 m³ /s
A
25 cm
25 cm
3200 m
B
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