Two tanks (A and B) are connected using a multifluid manometer. Air is trapped in the pipeline of CD as shown below. The specific weight of oil is 0.9 and that of water is 1. Determine the specific weight of air if Tank A is open to atmosphere (101.325 kPa) and the pressure in tank B is 113 kPa. Given that: h = 1.35 m, h: = 2 m, hy = 0.5 m, hạ = 1.25 m, hs = 0.99 m and he = 1.5 m. Air h. Oil D: D CO: C D. h. B ha Water he 1,25 m he he B: Water B.
Two tanks (A and B) are connected using a multifluid manometer. Air is trapped in the pipeline of CD as shown below. The specific weight of oil is 0.9 and that of water is 1. Determine the specific weight of air if Tank A is open to atmosphere (101.325 kPa) and the pressure in tank B is 113 kPa. Given that: h = 1.35 m, h: = 2 m, hy = 0.5 m, hạ = 1.25 m, hs = 0.99 m and he = 1.5 m. Air h. Oil D: D CO: C D. h. B ha Water he 1,25 m he he B: Water B.
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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Transcribed Image Text:Two tanks (A and B) are connected using a multifluid manometer. Air is trapped in the pipeline
of CD as shown below. The specific weight of oil is 0.9 and that of water is 1. Determine the
specific weight of air if Tank A is open to atmosphere (101.325 kPa) and the pressure in tank
B is 113 kPa. Given that: h = 1.35 m, h: = 2 m, hy = 0.5 m, hạ = 1.25 m, hs = 0.99 m and
he = 1.5 m.
Air
h.
Oil
D: D
CO:
C D. h.
B
ha
Water
he
1,25 m
he
he
B:
Water
B.
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