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.

Elements Of Electromagnetics
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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.
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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