Figure 3 show a tank with a U-tube manometer. Fluid A is oil with a relative density of 0,9. Fluid B is mercury with a mass density of 13 600 kg/m³. Determine the absolute pressure in the tank at P if a barometer indicates a reading of 755 mm of mercury. [1 Fluid B P Figure 3 Air Fluid A 1,2 m 0.7 m 1,8 m 45°

Figure 3 show a tank with a U-tube manometer. Fluid A is oil with a relative density of 0,9. Fluid B is mercury with a mass density of 13 600 kg/m³. Determine the absolute pressure in the tank at P if a barometer indicates a reading of 755 mm of mercury. [1 Fluid B P Figure 3 Air Fluid A 1,2 m 0.7 m 1,8 m 45°

Name: Figure 3 show a tank with a U-tube manometer. Fluid A is oil with a r
Uploaded: 2024-03-20T06:56:55.000Z
Channel: Bartleby
Description: Figure 3 show a tank with a U-tube manometer. Fluid A is oil with a relative density of0,9. Fluid B is mercury with a mass density of 13 600 kg/m³. Determine the absolutepressure in the tank at P if a barometer indicates a reading of 755 mm of mercu

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter5: Analysis Of Convection Heat Transfer

Section: Chapter Questions

Problem 5.5P: Evaluate the dimensionless groups hcD/k,UD/, and cp/k for water, n-butyl alcohol, mercury, hydrogen,...

See similar textbooks

Similar questions

The inclined tube manometer shown in the next figure is used to measure small pressure perturbations (Ap). This manometer is composed of a large tube (diameter (D), area (A)) and a small inclined capillary tube (diameter (d), area (a)) and angle (0). Any small pressure difference will result in fluid displacement (Ah) in the large tube and a significant displacement of the fluid in the capillary at a length (AL.). Ap AL initial level Ap (1) Obtain a relationship between (Ah) and (AL) ! (hint: displaced liquid in large tube is equal to that in the small tube ) (2) What the formula for (z2 – 21) ? (hint : height between level 2 and level 1) (3) Express the pressure (Pz-P1) in terms of (AL, 0, p, g, d, and D) ? (4) At what angle should the manometer be adjusted so that (AL-5 Ah) ?
The capillary rise and fall in the glass tube used for both measuring water level and mercury level is not to exceed 0.8mm and 0.3mm respectively. Determine the minimum size of a glass tube for both liquids, given that surface tension of water = 0.082N/m and surface tension of mercury= 0.52 N/m with diagram. MODEL QUESTION PAPER
A McLeod Gage is available which has a volume, VB of 58.9 cm vecoum spece, and a capillary diameter of 1 mm. Refercnce The gage reading on the device is 15 cm. Calculate the pressure corresponding to this gage reading in micrometer of Movable Eervoir water. Capillary, C Buh, Opening, O
The sketch shows an oil manometer that is connected between two pipes which transport water. The density of water can be taken as 998kg/m3, the specific gravity of glycerol is 0.76 and atmospheric pressure is 100 kPa. The respective dimensions (as shown on the sketch) are given below: h1 = 0.17 m h2 = 350 mm h3 =15cm. From the given data, calculate the pressure difference between the two pipes.
In the figure given, fluid 2 is carbon tetrachloride and fluid 1 is benzene. If patm = 101.5 kPa, determine the absolute pressure at point A. fluid 1 A T 12 cm Patm fluid 2 35 cm ] LIVE 10 nexxt Reimagine Education. www.dlsl.edu.ph
A cylinder contains a fluid at a gauge pressure of 350kPa. Express the pressure in terms of the column height of (a) water (p = 1000kg/m) (b) Hg (S = 13.6). What would be %3D absolute pressure in the cylinder if the atmospheric pressure is 101.3 kPa ?
Q5 A U-tube manometer similar to that shown below is used to measure the gauge pressure of water (mass density p = 1000 kg /m3). If the density of mercury is 13.6 x 103 kg /m³, what will be the gauge pressure at A if h1 = 0.45 m and D is 0.7 m above BC. Wwater Wmercury
An inverted differential manometer containing an oil of sp. gr. 0.9 is connected to find the difference of pressures at two points of a pipe containing water. If the manometer reading is 40 cm, find the difference of pressures. [Ans. 392.4 N/m²]
A volume of 400 cc of air is measured at a pressure of 740 mm Hg absolute and a temperature of 18 ˚C. What will be the volume (in cc) at 760 mm Hg and 0 ˚C?
A manometer using oil (density 0.900 g/cm3) as a fluid is connected to an air tank. Suddenly the pressure in the tank increases by 7.61 mmHg. Density of mercury is 13.6 g/cm3. By how much does the fluid level rise in the side of the manometer that is open to the atmosphere? ? cm
An inverted differential manometer is connected to two pipes A and B which convey water. The fluid in manometer is oil of SG= 0.8. For the manometer reading shown in the figure, find the pressure difference between A and B. X 30 cm 20 30 OIL OF Sp. gr. 0.8 -X
Figure below shows an open water manometer for the measurement of the pressure of a pipeline in Saudi Arabia containing oil (S.G 0.90). The density of water is 1000 kgm/m^3. For the readings given, determine the pressure at point x if the barometric pressure is 100 KPa.