The mass of `2.24xx10^(-3)m^(3)` of a gas is 4.4 g at 273.15 K and 101.325 Kpa pressure. The gas may be

The mass of 2.24 xx 10^(-3) m^(3) of a gas is 4.4 g at 273.15 K and 101.325 kPa pressure. The gas may be

A vessel of volume 8.0 xx 10^(-3)m^(3) contains an ideal gas at 300 K and pressure 200 kPa . The gas is allowed to leak till the pressure falls to 125 k Pa . Calculate the amount of the gas (in moles) leaked assuming that the temperature remains constants.

A vessel of volume 8.0 xx 10^(-3)m^(3) contains an ideal gas at 300 K and pressure 200 kPa . The gas is allowed to leak till the pressure falls to 125 k Pa . Calculate the amount of the gas (in moles) leaked assuming that the temperature remains constants.

A vessel of volume 8.0 xx 10^(-3) m^(3) contains an ideal gas at 300 K and 210 kPa . The gas is allowed to leak till the pressure falls to 135 kPa . Calculate the amount of the gas (in moles) leaked assuming the temperature to remain constant.

If 224 mL of triatomic gas has a mass of 1 g at 273 K and 1 atm. Pressure, then the mass of one atom is

If 22.4 ml of a triatomic gas has a mass of 0.048 g at 273K and 1 atm pressure, then the mass of one atom is:

A vessel of volume 8.0xx10^(-3) m^(3) contains an ideal gas at 300K and 200kPa. The gas is allowed to leak till the pressure falls to 125kPa. Calculate the amount of the gas (in moles) leaked assuming that the temperature remains constant.

A vessel of volume 8.0xx10^(-3) m^(3) contains an ideal gas at 300K and 200kPa. The gas is allowed to leak till the pressure falls to 125kPa. Calculate the amount of the gas (in moles) leaked assuming that the temperature remains constant.

The molar volume of dinitrogen at 273.15 K and 1 atm pressure is 22.4 L . The molar volume of argon , a mono atomic gas at 273. 15 K and 1 atm present is