Problem 1 The manometer pressure at pipe A is about 30mmHg and the initial differential reading of Mercury is 0.30 m as shown. Calculate the absolute pressure at pipe B. Note: Νερο: Water, Υγράργυρος: Mercury, Πετρέλαιο: Οι Result: [142.8 kPa] Nepo 0.50 m Πετρέλαιο 0.15 m 0.30 m Υδράργυρος Figure 1 Problem 1 The manometer pressure at pipe A is about 30mmHg and the initial differential reading of Mercury is 0.30 m as shown. Calculate the absolute pressure at pipe B. Note: Νερο: Water, Υγράργυρος: Mercury, Πετρέλαιο: Οι Result: [142.8 kPa] Nepo 0.50 m Πετρέλαιο 0.15 m 0.30 m Υδράργυρος Figure 1

Problem 1 The manometer pressure at pipe A is about 30mmHg and the initial differential reading of Mercury is 0.30 m as shown. Calculate the absolute pressure at pipe B. Note: Νερο: Water, Υγράργυρος: Mercury, Πετρέλαιο: Οι Result: [142.8 kPa] Nepo 0.50 m Πετρέλαιο 0.15 m 0.30 m Υδράργυρος Figure 1 Problem 1 The manometer pressure at pipe A is about 30mmHg and the initial differential reading of Mercury is 0.30 m as shown. Calculate the absolute pressure at pipe B. Note: Νερο: Water, Υγράργυρος: Mercury, Πετρέλαιο: Οι Result: [142.8 kPa] Nepo 0.50 m Πετρέλαιο 0.15 m 0.30 m Υδράργυρος Figure 1

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_____...

See similar textbooks

Similar questions

Atmospheric pressure at sea level under standard conditions is ______inches of mercury (Hg) or_____ pounds per square inch absolute (psia).
ASAP pls dont round off initial values, round off final ans only ty. Calculate the absolute pressure in kPa at a depth of 8 m below the oil's free surface, with a barometric reading of 752 mm Hg.
The elevation of Tucson, AZ, is about 500 m, and Mt. Lemmon is about 2000 m higher. Assuming standard atmospheric conditions in Tucson, determine the pressure at the top of Mt. Lemmon assuming (a) an incompressible atmosphere and (b) an atmosphere for which the temperature varies linearly with altitude. Compare your result to the value for a standard atmosphere
The pressure difference between point A and point B is to be measured using an inclined mercury (SG 13.6) manometer. The manometer is inclined at 15 degrees. If the reading along the manometer is 4.8 cm, find the pressure drop between A and B. Include a diagram in your solution. Assume the other liquid in the manometer is air, and operating temperature is 25 degrees Celsius.
An air-filled, hemispherical shell is attached to the ocean floor at adepth of 10 m as shown in fig. A mercury barometer located inside the shell reads 765 mmHg (absolute pressure inside the shell)m, and a mercury u-tube manometer designedto givethe outside water pressure indicates differential reading of 735 mmHg as illusrated. Based on these data,what is the atmospheric pressure at the ocean surface for seawater (SG=1.03)
For the figure shown, determine the pressure at point D, if the specific gravity of oil is 0.9 and the manometer fluid is 0.7
Assuming specific weight of air to be constant at 12 N/m3, what is the approximate height of Mount Banahaw if a mercury barometer at the base of the mountain reads 654 mm and at the same instant, another barometer at the top of the mountain reads 480mm.
Calculate the absolute pressure in kPa at a depth of 11 m below the oil's free surface, with a barometric reading of 752 mm Hg.
The gage pressure of the air in the tank shown in Fig. is measured to be 80 kPa. Determine the differential height h of the mercury column.
Convert a -6 kPa (negative 6 kiloPascal) pressure to an absolute pressure in kPa.
A U-tube manometer is connected to a closed tank as shown. The air pressure in the tank is 0.25 psi and the liquid in the tank is oil (SG=0.6) . The pressure at point A is 1 psi. a. Determine the depth z (in feet) of oil in the tank. b. Determine the differential reading, h (in feet), on the manometer.
The barometer reads 29 inches of mercury. What is the absolute pressure in kPa if avacuum gage reads 9.5 psi?