Q1(b) A multi fluid manometer is shown in Figure Q1(b). Determine the following: (i) Determine height 'h' if the difference in pressure between the two pipes is 15.38 kPa; [6] (ii) Difference in pressure between the two pipelines if both pipes are in the same level. [6] Take density of air = 1kg/m³ and density of water = 1000kg/m³. %3D Oil SG 0.79 Gasoline SG =0.70 PIPE Air 45 cm Pipe hcm 22 cm 10 cm

Elements Of Electromagnetics
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Q1(b) A multi fluid manometer is shown in Figure Q1(b). Determine the
following:
(i) Determine height 'h' if the difference in pressure between the two
pipes is 15.38 kPa;
[6]
(ii) Difference in pressure between the two pipelines if both pipes are
in the same level.
[6]
Take density of air = 1kg/m3 and density of water = 1000kg/m3.
Oil SG = 0.79
Gasoline SG =0.70
PIPE
Air
45 cm
hcm
Pipe
22 cm
10 cm
`Mercury
SG= 13.6
Water
Figure Q1(b)
Transcribed Image Text:Q1(b) A multi fluid manometer is shown in Figure Q1(b). Determine the following: (i) Determine height 'h' if the difference in pressure between the two pipes is 15.38 kPa; [6] (ii) Difference in pressure between the two pipelines if both pipes are in the same level. [6] Take density of air = 1kg/m3 and density of water = 1000kg/m3. Oil SG = 0.79 Gasoline SG =0.70 PIPE Air 45 cm hcm Pipe 22 cm 10 cm `Mercury SG= 13.6 Water Figure Q1(b)
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