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1075 torr - 720 torr = 355 torr
The pressure of each gas in a mixture is called the partial pressure of that gas.
To convert Torr to mm Hg, divide by 1.33. So, the partial pressure of helium in mm Hg is 439 Torr / 1.33 = 330 mm Hg. To find the partial pressure of hydrogen, subtract the partial pressure of helium from the total pressure: 600 mm Hg - 330 mm Hg = 270 mm Hg. Hence, the partial pressure of hydrogen gas is 270 mm Hg.
Converting 740 torr to mm Hg: 1 torr = 1 mm Hg so 740 torr = 740 mm HgTotal pressure = partial pressure O2 + partial pressure N2O (nitrous oxide, not nitrogen oxide)Pressure of N2O = 740 mm Hg - 370 mm Hg = 370 mm Hg
500 mmHg or 500 torr is a gas pressure approximately 66% of the standard sea level air pressure of 760 torr ... it is the air pressure one would find at an altitude of approximately 3km or 10000 feet ... at sea level, 500 torr would be considered a partial vacuum of 0.66 atm.
1075 torr - 720 torr = 355 torr
The pressure of each gas in a mixture is called the partial pressure of that gas.
To convert Torr to mm Hg, divide by 1.33. So, the partial pressure of helium in mm Hg is 439 Torr / 1.33 = 330 mm Hg. To find the partial pressure of hydrogen, subtract the partial pressure of helium from the total pressure: 600 mm Hg - 330 mm Hg = 270 mm Hg. Hence, the partial pressure of hydrogen gas is 270 mm Hg.
Converting 740 torr to mm Hg: 1 torr = 1 mm Hg so 740 torr = 740 mm HgTotal pressure = partial pressure O2 + partial pressure N2O (nitrous oxide, not nitrogen oxide)Pressure of N2O = 740 mm Hg - 370 mm Hg = 370 mm Hg
0.395 total moles moles F 760.torr 300.torr total moles moles F 2 2 = ×
500 mmHg or 500 torr is a gas pressure approximately 66% of the standard sea level air pressure of 760 torr ... it is the air pressure one would find at an altitude of approximately 3km or 10000 feet ... at sea level, 500 torr would be considered a partial vacuum of 0.66 atm.
630 torr
630 torr
its the same 235 torr
11,012 torr
The partial pressure of a gas in a mixture is equal to the total pressure of the mixture multiplied by the mole fraction of that gas. Since the mole fraction of O2 in air is 0.2084 and the total pressure of air is approximately 1 atmosphere, the partial pressure of O2 in air is approximately 0.2084 atmosphere.
Vapor pressure of a liquid at its normal boiling temperature is simply the atmospheric pressure, aka 1 atm, 760 torr, etc. This is by definition.