A gaseous mixture containing equal mole sof `H_(2),O_(2)` and He is subjected to series of effusion steps. The composition (by moles) of effused mixture after 4 effusion steps is `x:1:y` rspectively. Then find the value of `((x)/(y)).`

A gaseous mixture comprising of equal moles of H_(2)//O_(2)//M (M mass=128) was subjected to series of effusion steps. What will be the number effusion steps required so as to change the composition to: One in which H_(2):O_(2) is 4096:1. What will be the composition of this mixture (w.r.t. all the gases)?

A gaseous mixture contains equal mass of CH_(4) and SO_(2) gas. The mole fraction of SO_(2) in the mixture is

A gaseous mixture comprising of equal moles of H_(2)//O_(2)//M (M mass=128) was subjected to series of effusion steps. What will be the number effusion steps required so as to change the composition to: One in which lightest: Heaviest gas is 4096:1 What will be the composition of this mixture (w.r.t all the gases)?

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 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 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 gaseous mixture contains 4.0g of H_(2) and 56.0g of N_(2) . The mole fraction of H_(2) in the mixture is

A mixture of equal mass of O_(2) and O_(3) gases are allowed to effuse through an orifice, the rate of effusion of O_(3) to O_(2) is

A vessel contains 1 mole of O_(2) and 1 mole of He. The value of gamma of the mixture is