A pipe of diameter 12 cm, is used to pump the water to the house in the Hamra hill at the height of 60 m than the ground. The discharge at the end of the pipe is 200 lit/s. The pressure gauge is fitted at the entry of the pipe in the ground is 34 N/cm?. Find the following: (i) The velocity head at the entry of pipe (in m) (ii) Pressure head at the inlet (in m) (iii) Total available energy per unit weight of the water at the pipe inlet (unit in m) (Enter only the values by referring to the units given in brackets & DO NOT write the unit & do not send the handwritten answers to my mail id..) velocity head at the entry of the pipe is = (unit in m) pressure head at inlet = (unit in m) Total available energy per unit weight of the water at inlet of the pipe

A pipe of diameter 12 cm, is used to pump the water to the house in the Hamra hill at the height of 60 m than the ground. The discharge at the end of the pipe is 200 lit/s. The pressure gauge is fitted at the entry of the pipe in the ground is 34 N/cm?. Find the following: (i) The velocity head at the entry of pipe (in m) (ii) Pressure head at the inlet (in m) (iii) Total available energy per unit weight of the water at the pipe inlet (unit in m) (Enter only the values by referring to the units given in brackets & DO NOT write the unit & do not send the handwritten answers to my mail id..) velocity head at the entry of the pipe is = (unit in m) pressure head at inlet = (unit in m) Total available energy per unit weight of the water at inlet of the pipe

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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Fluid Dynamics

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Question

100%

A pipe of diameter 12 cm, is used to pump the
water to the house in the Hamra hill at the height
of 60 m than the ground. The discharge at the end
of the pipe is 200 lit/s. The pressure gauge is
fitted at the entry of the pipe in the ground is 34
N/cm?.
Find the following:
(i) The velocity head at the entry of pipe (in m)
(ii) Pressure head at the inlet (in m)
(iii) Total available energy per unit weight of the
water at the pipe inlet (unit in m)
(Enter only the values by referring to the units
given in brackets & DO NOT write the unit & do
not send the handwritten answers to my mail
id...)
velocity head at the entry of the pipe is = (unit in
m)
pressure head at inlet = (unit in m)
Total available energy per unit weight of the water
at inlet of the pipe

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