A gaseous mixture containing He, `CH_(4)` and `SO_(2)` in `1:2:3` mole ratio, calculate the molar ratio of gases effusing out initially.

A mixture of gases contains H_(2) and O_(2) gases in the ratio of 1:4 (w//w) . What is the molar ratio of the two gases in the mixture?

A mixture of gases contains H_(2) and O_(2) gases in the ratio of 1:4 (w//w) . What is the molar ratio of the two gases in the mixture?

A gaseous mixture contains SO_(3)(g) and CH_(4)(g) in 12.5 : 1 ratio by mass. Calculate X where X = Ratio of total number of atoms present in SO_(3)(g) to total number of atoms presents in CH_(4)(g) in the mixure.

A mixture contains N_(2)O_(4) and NO_(2) in the ratio 2:1 by volume. Calculate the vapour density of the mixture?

A vessel contains O_(2)andH_(2) in 2 : 1 molar ratio at 10 atm pressure then calculate ratio of their rate of diffusion.

A gaseous mixture contains 40% H_(2) and 60% He, by volume. What is the average molecular mass of mixture ?

280 g of a mixture containing CH_(4) and C_(2)H_(6) in 5:2 molar ratio is burnt in presence of excess of oxygen. Calculate total moles of CO_(2) produced.

A gaseous mixture contains CO_(2) (g) and N_(2)O (g) in a 2 : 5 ratio by mass. The ratio of the number of molecules of CO_(2) (g) and N_(2)O is

A gaseous mixture contains SO_(3)(g) and C_(2)H_(6)(g) in a 16:15 ratio by mass. The ratio of total number of atoms present in C_(2)H_(6)(g) and SO_(3)(g) is:

A gaseous mixture contains 40% O_(2), 40% N_(2), 10% CO_(2), 10% CH_(4) by volume. Calculate the vapour density of the gaseous mixture.