Water from a reservoir is pumped over a hill through a pipe 1m in diameter and apressure of 20 kPa is maintained at the summit, where the pipe is 90m above thereservoir. The quantity pumped is 1.4 m/s and by reason of friction in the pump and pipethere is 3m of head lost between reservoir and summit. What amount of energy must befurnished each second by the pump?ImpImpgonOATUM

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Description: Water from a reservoir is pumped over a hill through a pipe 1m in diameter and apressure of 20 kPa is maintained at the summit, where the pipe is 90m above thereservoir. The quantity pumped is 1.4 m/s and by reason of friction in the pump and pipeth

Given, Diameter of pipe, d=1mPressure at the summit,P=20KPaHead above the reservoir, z=90mHead loss,…

Engineering

Mechanical Engineering

Water from a reservoir is pumped over a hill through a pipe 1m in diameter and a pressure of 20 kPa is maintained at the summit, where the pipe is 90m above the reservoir. The quantity pumped is 1.4 m3/s and by reason of friction in the pump and pipe there is 3m of head lost between reservoir and summit. What amount of energy must be furnished each second by the pump? Imp 9on GORTUM

Water from a reservoir is pumped over a hill through a pipe 1m in diameter and a pressure of 20 kPa is maintained at the summit, where the pipe is 90m above the reservoir. The quantity pumped is 1.4 m3/s and by reason of friction in the pump and pipe there is 3m of head lost between reservoir and summit. What amount of energy must be furnished each second by the pump? Imp 9on GORTUM

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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