Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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Transcribed Image Text:A multifluid container is connected to a U-tube, as shown in the figure. For the given specific gravitles and fluid column heights.
determine the gage pressure at A. Also determine the height of a mercury column that would create the same pressure at A. The
column heighth of oil is 86 cm. The specific gravitles are 1.26 for glycerin and 0.90 for oll. We take the standard density of water to be
Pw=1000 kg/m³ and the specific gravity of mercury to be 13.6.
h
35 cm
18 cm
Į
Oil
SG-0.90
Water
Glycerin
SG-1.26
90 cm
15 cm
The gage pressure at A is
kPa.
The height of a mercury column that would create the same pressure at A is
cm.
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- 多95 6 نقاط Two tank with the same fluid at * their base are separated by piston whose weight is (50 N) and (30 cm) diameter, as shown below. Calculate the gage pressure at point A, B and * .C respectively Piston B Air Air 50 cm 30 cm 25 cm E 30 cm Water 90 cmarrow_forwardHello. Our instructor solved this question and subtracted the product of water's height and specific weight from the P1 pressure, as well as oil's. He didn't factor air pressure into the equation. What is the reason why we do not use open air pressure to solve the problem?arrow_forwardExample:A micrometer, having a ratio of reservoir to limb areas as 40, was used to determine the pressure in a pipe containing water. Determine the pressure in the pipe for manometer reading shown in Figure. Limb Reservoir: 79 - unu 08arrow_forward
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