The figure A1(b) shows the pressure difference between two pipes, each containing a liquid of density = 1000 kg/m, which it is measured using a manometer and is found to be 42 kN/m². Given that the liquid in the manometer is mercury and that a =1.5m and b=0.7m LIQUID at pressure p, LIQUID at pressure p, Figure A1(b) c) Calculate the unknown distance x in terms of h, d) Determine the value of the pressure head h,
The figure A1(b) shows the pressure difference between two pipes, each containing a liquid of density = 1000 kg/m, which it is measured using a manometer and is found to be 42 kN/m². Given that the liquid in the manometer is mercury and that a =1.5m and b=0.7m LIQUID at pressure p, LIQUID at pressure p, Figure A1(b) c) Calculate the unknown distance x in terms of h, d) Determine the value of the pressure head h,
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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Solve the first page (2) using the second picture
Transcribed Image Text:The figure A1(b) shows the pressure difference between two pipes, each containing
a liquid of density = 1000 kg/m³, which it is measured using a manometer and is
found to be 42 kN/m². Given that the liquid in the manometer is mercury and that a
=1.5m and b=0.7m
LIQUID
at
(pressure p,
LIQUID`
at
pressure p,
hp
Figure A1(b)
c) Calculate the unknown distance x in terms of h,
d) Determine the value of the pressure head h,
Transcribed Image Text:The figure A1(a) shows the pressure of a gas that it is measured by use of a
manometer The manometer liquid is water and h, =0.56 m. The reading on a
nearby barometer is 0.78m of mercury. The density of mercury is 13.6x103
kg/m3.
Calculate:
a) The atmospheric pressure expressed in N/m?.
b) The absolute gas pressure (p) expressed in N/m?.
Pațmos
Gas at
pressure
hp
Figure A1(a)
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