Consider the manometer tube shown in below Figure 1. It is filled with three different incompressible fluids. The closed end of the tube is connected to a reservoir with a constant pressure. For this configuration, calculate i) the pressure in the reservoir in kPa, ii) the pressure in the reservoir as gage pressure in kPa, iii) the equivalent height of water, and iv) the equivalent height of mercury.
Consider the manometer tube shown in below Figure 1. It is filled with three different incompressible fluids. The closed end of the tube is connected to a reservoir with a constant pressure. For this configuration, calculate i) the pressure in the reservoir in kPa, ii) the pressure in the reservoir as gage pressure in kPa, iii) the equivalent height of water, and iv) the equivalent height of mercury.
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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Consider the manometer tube shown in below Figure 1. It is filled with three different
incompressible fluids. The closed end of the tube is connected to a reservoir with a
constant pressure. For this configuration, calculate
i) the pressure in the reservoir in kPa,
ii) the pressure in the reservoir as gage pressure in kPa,
iii) the equivalent height of water, and
iv) the equivalent height of mercury.
Transcribed Image Text:P=
3D101 kPa
1
S3D0.6
S= 0.6
%3|
i
h.3D5 cm
h =20 cm
tank
( 4
h3D
15 cm
h, = 10 cm
S= 0.8
Control
volume
! 3
Pw = 998 kg/m
%3D
S 0.1
Figure 1
2.
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