Same mass of `CH_(4)` and `H_(2)` is taken in container. The partial pressure caused by `H_(2)` is

Equal masses of CH_(4) and H_(2) are mixed in an empty chamber. The partial pressure of hydrogen in this chamber expressed as fraction of total pressure is :

Equal masses of He, O_(2) and SO_(2) are taken in a closed container. The ratio of the partial pressures of gases He, O_(2) and SO_(2) would be

Equal masses of SO_(2), CH_(4) and O_(2) are mixed in empty container at 298 K, when total pressure is 2atm . The partial pressure of CH_(4) in the mixture is

Equal mass of H_(2) , He and CH_(4) are mixed in empty container at 300 K, when total pressure is 2.6 atm The partial pressure of H_(2) in the mixture is

1 gram H_(2) and 8g O_(2) were taken in a 10 liter vessel at 300 K. The partial pressure exerted by O_(2) will be

Equal masses of O_(2), H_(2) and CH_(4) are taken in a container. The respective mole ration of these gases in container is:

A 100 dm^(3) flask contains 10 mol each of N_(2) and H_(2) at 700 K . After equilibrium was reached, partial pressure of H_(2) was 1 atm . At this point, 5 L of H_(2)O(l) was injected and gas mixture was cooled to 298 K . Find out the gas pressure.