`360 cm^3` of `CH_4` gas diffused through a porous membrane in 15 minutes. Under similar conditions, `120cm^3` of another gas diffused in 10 minutes. Find the molar mass of the gas.

240cc of SO_2 gas diffused through a porous membrane in 20 minutes. Under similar conditions, 720 cc of another gas diffused in 30 minutes. Find the molecular mass of the gas.

12 cm^3 of SO_2 (g) diffused through a porous membrane in 1 minute. Under similar conditions 120 cm^3 of another gas diffused in 5 minutes. The molar mass of the gas in g"mol"^(-1) is

12L of SO_2 gas diffused through a porous membrane in 20 minutes. Under same conditions 36L of X gas diffused in 30 minutes. The molar mass of the gas 'X' in g mol^(-1) is :

720cc of methane diffused through a porous membrane in 30min. Under identical conditions 240cc of gas 'X'diffused in 20 min. Calculate the molecular weight of 'X'.

350 cm^3 of oxygen and 275cm^3 of another gas 'A' diffused in same time under similar conditions. Find the molecualr mass of the gas 'A'.

If 240mL of a gas X diffuses through a porous membrane in 20 min whereas the same volume of methane diffuses in 10 min at the same temperature and pressure, the molar mass in g mol^(-1) of gas X is

Ammonia gas diffuses through a fine hole at the rate 0.5 lit min^-1 . Under the same conditions find the rate of diffusion of chlorine gas.