A water pump is to be used in a water supply system as shown in the figure below. The pressure at 1 is 70 kPaa, and the pressure at 2 is 101 kPaa. The velocity in the 60-mm pipe is 2 m/s. Find the pump power. Neglect friction, and assume no change of internal energy of the water and no heat transfer between 1 and 2. Take the density of water to be constant at 1000 kg/m2. Given: Water Pump Shown 2 m2 D, = 60 mm D, = 40 mm 10 m = 70 kPaa P, V, = 2 m/s P2 = 101 kPaa AU = 0 Q = 0 V2 = v, = 0.001 m/kg Pump m %3! Required: The pump power

A water pump is to be used in a water supply system as shown in the figure below. The pressure at 1 is 70 kPaa, and the pressure at 2 is 101 kPaa. The velocity in the 60-mm pipe is 2 m/s. Find the pump power. Neglect friction, and assume no change of internal energy of the water and no heat transfer between 1 and 2. Take the density of water to be constant at 1000 kg/m2. Given: Water Pump Shown 2 m2 D, = 60 mm D, = 40 mm 10 m = 70 kPaa P, V, = 2 m/s P2 = 101 kPaa AU = 0 Q = 0 V2 = v, = 0.001 m/kg Pump m %3! Required: The pump power

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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