A vessel of volume `2 xx 10^(-2) m^(3)` contains a mixture of hydrogen at `47^(@)C` temperature and `4.15 xx 10^(5) N//m^(2)` Pressure. The mass of the mixture is `10^(-2) kg`. Calculate the masses of hydrogen and helium in the given mixture.

A vessel of volume 2 xx 10^(-2) m^(3) contains a mixture of hydrogen and helium at 47^(@)C temperature and 4.15 xx 10^(5) N//m^(2) Pressure. The mass of the mixture is 10^(-2) kg . Calculate the masses of hydrogen and helium in the given mixture.

A vessel of volume 20 L contains a mixture o hydrogen and helium at temperature of 27^(@)C and pressure 2.0 atm The mass of the mixture is 5 g . Assuming the gases to be ideal, the ratio of the mass of hydrogen to heat of helium in the given mixture will be

A vessel of volume 20 L contains a mixture o hydrogen and helium at temperature of 27^(@)C and pressure 2.0 atm The mass of the mixture is 5 g . Assuming the gases to be ideal, the ratio of the mass of hydrogen to heat of helium in the given mixture will be

A closed container of volume 0.02m^3 contains a mixture of neon and argon gases, at a temperature of 27^@C and pressure of 1xx10^5Nm^-2 . The total mass of the mixture is 28g. If the molar masses of neon and argon are 20 and 40gmol^-1 respectively, find the masses of the individual gasses in the container assuming them to be ideal (Universal gas constant R=8.314J//mol-K ).

A closed container of volume 0.02m^3 contains a mixture of neon and argon gases, at a temperature of 27^@C and pressure of 1xx10^5Nm^-2 . The total mass of the mixture is 28g. If the molar masses of neon and argon are 20 and 40gmol^-1 respectively, find the masses of the individual gasses in the container assuming them to be ideal (Universal gas constant R=8.314J//mol-K ).

The mass of a molecule of hydrogen is 3.332xx10^(-27) kg. Find the mass of 1 kg mol of hydrogen gas.

The mass of 0.5 dm^(3) of hydrogen at a pressure of 1 bar of Hg and at a temperature of 300 K was found to be 4.0 xx 10^(-2) g . Calculate the molar mass of hydrogen.

When a body having a volume of 10^(-3) m^(3) is pressed by a pressure of 4 xx 10^(4) N //m^(2) , its volume decreases by 0.2 xx 10^(-6) m^(3) . Calculate the bulk modulus of the body.

Vessel of 1xx10^(-3) m^(3) volume contains an oil. If a pressure of 1.2xx10^(5) N//m^(2) is applied on it , then volume decreases by 0.3xx10(-3) m^(3) . The bulk modulus of oil is

A vessel contains a mixture of 7 g of nitrogen and 11 g carbon dioxide at temperature T = 290 K . If pressure of the mixure is 1 atm (= 1.01 xx 10^5 N//m^2) , calculate its dencity (R = 8.31 J//mol - K) .