I think at sealevel and standard conditions the partial pressure of hydrogen is nearly zero (~0 Pa).
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.
161 mm Hg.
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.
In a sample of air, an increase in temperature will result in an increase in the partial pressure of oxygen.
The partial pressure of water (vapor) is included in the total pressure of the atmosphere (air) when boiling.
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.
161 mm Hg.
When air pressure is Low it becomes very difficult to breath simply because air moves from high partial pressure to low partial pressure.
The Partial Pressure of Oxygen in ambient air in Denver (610mmHg) is 128.1mmHg.
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.
Total pressure = ppO2 + ppH2 + ppN2ppN2 = Total pressure - (ppO2 + ppH2)ppN2 = 282 kPa - (110+106 kPa) = 282kPa - 216kPappN2 = 66 kPa = partial pressure of nitrogen
In a sample of air, an increase in temperature will result in an increase in the partial pressure of oxygen.
About 78 % (or about 11.7 psi).
The partial pressure of water (vapor) is included in the total pressure of the atmosphere (air) when boiling.
The pressure is 103,5 at.
.78
During exhaling, air out of lungs, diaphragm is pushed upward and hence partial pressure in the ribs increases and the pressure outside the body is little less so air goes out of the body. During inhalation exact opposite of exhalation occurs Total pressure = partial pressure outside our body + partial pressure inside our body