For the inclined manometer shown in the figure the pressure in pipe A is known to be 4.1 kPa. The fluid in both pipes A and B is water and the manometer fluid has a specific gravity of 2.6. Determine the pressure in pipe B corresponding to a differential reading of 20.3cm as shown. [PB= 1.51kPa] 7. B+ 7.6cm (at. A 20.3сm 7.6cm SG=2.6 30°

Elements Of Electromagnetics
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For the inclined manometer shown in the figure the pressure in pipe A is
known to be 4.1 kPa. The fluid in both pipes A and B is water and the
manometer fluid has a specific gravity of 2.6. Determine the pressure in
pipe B corresponding to a differential reading of 20.3cm as shown.
[PB= 1.51kPa]
7.
B+
7.6cm
A
20.3cm
7.6cm
SG= 2.6
30°
Transcribed Image Text:For the inclined manometer shown in the figure the pressure in pipe A is known to be 4.1 kPa. The fluid in both pipes A and B is water and the manometer fluid has a specific gravity of 2.6. Determine the pressure in pipe B corresponding to a differential reading of 20.3cm as shown. [PB= 1.51kPa] 7. B+ 7.6cm A 20.3cm 7.6cm SG= 2.6 30°
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