. Ooredoo9:02 PMmoodle.nct.edu.om - PrivateOILA differential manometer is connected at thetwo points A and B as shown. At B air pressureis 9.82 N/cm2 (abs), find the absolute pressureat A using the following data.- Specific Gravity of oil as 0.81; - Distance, C =24 cm; - Distance, D = 107 mm; Distance, E =0.78 m.XBAAAA!Solution:i) Air Pressure at B (in Pa) =AIRWATERTO WAK66%EMERCURYSp. gr. = 13.6 . Ooredoo9:02 PMmoodle.nct.edu.om - PrivateOILXKANNANSolution:i) Air Pressure at B (in Pa) =KUWAKXEMERCURYSp. gr. = 13.6iv) Absolute Pressure at A (in Pa) =66%ii) Pressure above X - X in the right tube (in Pa)=iii) Pressure of Mercury above X-X in the lefttube (in Pa) =

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Description: . Ooredoo9:02 PMmoodle.nct.edu.om - PrivateOILA differential manometer is connected at thetwo points A and B as shown. At B air pressureis 9.82 N/cm2 (abs), find the absolute pressureat A using the following data.- Specific Gravity of oil as 0.81; -

Given:Pressure at B, PB=9.82 N/cm2Specific gravity of oil, SGo=0.81Distance, C=24 cm=0.24 mDistance,…

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A differential manometer is connected at the two points A and B as shown. At B air pressure is 9.82 N/cm² (abs), find the absolute pressure at A using the following data. - Specific Gravity of oil as 0.81; - Distance, C = 24 cm; - Distance, D = 107 mm; Distance, E = 0.78 m.

A differential manometer is connected at the two points A and B as shown. At B air pressure is 9.82 N/cm² (abs), find the absolute pressure at A using the following data. - Specific Gravity of oil as 0.81; - Distance, C = 24 cm; - Distance, D = 107 mm; Distance, E = 0.78 m.

Refrigeration and Air Conditioning Technology (MindTap Course List)

8th Edition

ISBN:9781305578296

Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Chapter1: Heat, Temperature, And Pressure

Section: Chapter Questions

Problem 14RQ: Atmospheric pressure at sea level under standard conditions is ______inches of mercury (Hg) or_____...

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(D1) The client is considering the use of a manometer to measure the differential pressurebetween Tank A and Tank B for operational purposes.a) Given:s.g of A = 1.3s.g of B = 1.7s.g of manometric fluid = 1.9h1 = 1.45m, h2 = 0.75m and h = 0.4mExplain how the manometer depicted can be used to find the differential pressure between Tanks A andB. Additionally give two (2) limitations of using a manometer to measure pressure.
Fig shows a U-tube differential manometer connecting two pressure pipes at A and B. Pipe A contains a liquid of specific gravity 1.8 under the pressure of 118 kN/m?. The pipe B contains oil of specific gravity 0.8 under the pressure of 204 kN/m?. Find the difference of pressure measured by mercury as fluid filling U-tube in mm. The value of x and y are 2.2 m and 1.1 m respectively. Po S, Mercury The Mercury level difference ( h ) in mm
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Fig shows a U-tube differential manometer connecting two pressure pipes at A and B. Pipe A contains a liquid of specific gravity 1.6 under the pressure of 109 kN/m². The pipe B contains oil of specific gravity 0.8 under the pressure of 219 kN/m². Find the difference of pressure measured by mercury as fluid filling U-tube in mm. The value of x and y are 2.4 m and 1 m respectively. Fa S Menin
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A differential manometer is connected at the two points A and B as shown. At B air pressure is 9.836 N/cm² (abs), find the absolute pressure at A using the following data. - Specific Gravity of oil as 0.88; - Distance, C = 21 cm; - Distance, D = 100 mm; Distance, E = 0.53 m. Solution: i) Air Pressure at B (in Pa) = ii) Pressure above X - X in the right tube (in Pa) = iii) Pressure of Mercury above X-X in the left tube (in Pa) = iv) Absolute Pressure at A (in Pa) = OIL X B AIR WATER TUVA MERCURY Sp. gr. = 13.6
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Fig shows a U-tube differential manometer connecting two pressure pipes at A and B. Pipe A contains a liquid of specific gravity 1.6 under the pressure of 110 kN/m². The pipe B contains oil of specific gravity 0.6 under the pressure of 216 kN/m². Find the difference of pressure measured by mercury as fluid filling U-tube in mm. The value of x and y are 2.6 m and 1 m respectively. Pe S, X- Mercury The Mercury level difference ( h ) in mm
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