Two gases in adjoining vessels were brought into correct by opening a stopcock between them. The one vessel measured `0.25 L` and contained `NO` gas at `800` torr and `220 K`, the other measured `0.1 L` contained `O_(2)` gas at `600` torr and `220 K`. The reaction to form `N_(2)O_(4)(s)` exhausts the limiting reagent completely,
(`a`) Neglacting the vapour pressure of `N_(2)O`, what is the pressure of the gas remaining at `220 K` after complection of the reaction?
(`b`) What weight of `N_(2)O` is formed?

When the pressure of 5 L of N_(2) is double and its temperature is raised from 300 K to 600 K, the final volume of the gas would be

821mLN_(2) (g) was collected over liquid water at 300 K and 1 atm.If vapour pressure of H_(2)O is 30 torr then moles of N_(2) (g) in moist gas mixture is :

Equal molecules of N_(2) and O_(2) are kept in closed container at pressure P . If N_(2) is removed from the system, then what will be the pressure of the container?

A vessel of 5 litre capacity maintained at 27^(@)C" was filled with 16g of "O_(2)gas. Calculate the pressure of the gas in atmospheres in the container.

The pressure of a gas is 2.5 atm . Calculate the value in torr.

When the reaction, 2NO_(2)(g) hArr N_(2)O_(4)(g) reaches equilibrium at 298 K . The partial pressure of NO_(2) and N_(2)O_(4) are 0.2 Kpa and 0.4 Kpa , respectively. What is the equilibrium constant K_(p) of the above reaction at 298 K ?

What will be the expression of K_(p) for the given reaction if the total pressure inside the vessel is P and degree of dissociation of the reactant is a? The reaction N_(2)O_(4)hArr 2NO_(2)

A cylinder contains 0.3 moles of N_(2) , 0.1 mole of O_(2) and 0.1 mole of helium. If the total pressure is one atm, what is the partial pressure of oxygen in mm Hg:-

At room temperature, the following reaction proceeds nearly to completion: 2NO+O_(2)to2NO_(2)toN_(2)O_(4) The dimer, N_(2)O_(4) , solidfies at 262 K . A 250 mL flask and a 100 mL flask are separated by a stopcock. At 300 K , the nitric oxide in the larger flask exerts a pressure of 1.053 atm and the smaller one contains oxygen at 0.789 atm . The gase are mixed by opening the stopcock and after the end of the reaction the flasks are cooled to 220 K . Neglecting the vapour pressure of the dimer, find out the pressure and composition of the gas remaining at 220 K . (Assume the gases to behave ideally)

At room temperature, the following reaction proceeds nearly to completion: 2NO+O_(2)to2NO_(2)toN_(2)O_(4) The dimer, N_(2)O_(4) , solidfies at 262 K . A 250 mL flask and a 100 mL flask are separated by a stopcock. At 300 K , the nitric oxide in the larger flask exerts a pressure of 1.053 atm and the smaller one contains oxygen at 0.789 atm . The gase are mixed by opening the stopcock and after the end of the reaction the flasks are cooled to 220 K . Neglecting the vapour pressure of the dimer, find out the pressure and composition of the gas remaining at 220 K . (Assume the gases to behave ideally)