0.5 mole of each of `H_2 ,SO_2 ` and `CH_4` are kept in a container. A hole was made in the container . After 3 hours the order of partial pressure in the container will be

0.5 mol each of H_(2), SO_(2) and CH_(4) are ketp in a container. A hole was made in the container. After 3 hours, the order of partial pressure in the container will be :

2.8 g of N_(2) , 0.40 g of H_(2) and 6.4g of O_(2) are placed in a container of 1.0 L capacity at 27^(@)C . The total pressure in the container is :

Equal weights of SO_(2) and O_(2) are mixed in an empty container at 300 K . The total pressure exerted by the gaseous mixture is 1 atm . The partial pressure of SO_2 gas in the mixture is

One mole of CO_2 contains

In the equilibrium H_(2)+I_(2)hArr2HI the number of moles of H_(2),I_(2) and HI are 1,2,3 moles respectively. Total pressure of the reaction mixture is 60 atm. Calculate the partial pressures of H_(2),I_(2) and HI in the mixture.

The vapour pressures of two liquids A and B in their pure states are in the ratio of 1 : 2 . A binary solution of A and B contains A and B in the mole proportion of 1: 2 . The mole fraction of A in the vapour phase of the solution will be

The vapour pressure of two liquids A and B in their pure states are in ratio of 1:2 . A binary solution of A and B contains A and B in the mole proportion of 1:2 . The mole fraction of A in the vapour phase of the solution will be