A gas cylinder of capacity of `20 dm^(3)` is filled with gas X, the mass of which is 10g. When the same cylinder is filled with hydrogen gas at the same temperature and pressure, the mass of the hydrogen is 2g. Hence the relative molecular mass of the gas is

A gas cylinder can hold 1 kg of hydrogen at room temperature and pressure : Find the number of moles of hydrogen present.

The mass of 5.6 dm^3 of a certain gas at S.T.P.is 12.0 g. Calculate the relative molecular mass of the gas.

The mass of 11.2 litre of a certain gas at S.T.P. is 24 g. Find the gram molecular mass of the gas.

A gas cylinder filled with hydrogen holds 5 g of the gas. The same cylinder holds 85 g of a gas X, under the same temperature and pressure. Calculate the vapour density and mol. wt. of the gas X.

A gas cylinder full of hydrogen gas contains 6 g of this gas. The same cylinder can hold 102 g of a gas X under the same conditions of temperature and pressure. Calculate the vapour density of the gas X

In a Regnault's experiment, the mass of a definite volume of a gas was found to be 4.6420 g, whereas the mass of the same volume of hydrogen at the same temperature and pressure was found to be 0.2902 g. Calculate the vapour density and molecular mass of the gas.

Which of the following gases will have least volume if 10g of each gas is taken at same temperature and pressure?

The mass of 5.6 litres of a certain gas at S.T .P. is 12 g. What is the relative molecular mass or molar mass of the gas ?

10 litres of a gas at S.T.P. weigh 19.64 g. Calculate the molecular mass of the gas.

3.7 g of a gas at 25°C occupies the same volume as 0.184 g of hydrogen at 17°C and at the same pressure. What is the molecular mass of the gas ?