At `27^(@)C` and 1 atm pressure ,`N_(2)O_(4)` is 20% dissociation into `NO_(@)` .What is the density of equilibrium mixture of `N_(2)O_(4) and NO_(2)` at `27^(@)C` and 1 atm?

At 27^(@)C and 1 atm pressure , N_(2)O_(4) is 20% dissociation into NO_(2) . What is the density of equilibrium mixture of N_(2)O_(4) and NO_(2) at 27^(@)C and 1 atm ?

At 27^@C and 1 atmosphere pressure N_2O_4 is 20% dissociated into NO_2 find K_P

At 60^(@) and 1 atm, N_(2)O_(4) is 50% dissociated into NO_(2) then K_(p) is

A given sample of N_(2)O_(4) in a closed vessel shows 20% dissociation in NO_(2) at 27^(@)C and 760 "torr" . The sample is now heated upto 127^(@)C and the analysis of mixture shows 60% dissociation at 127^(@)C . The density of the equilibrium mixture (in g//litre ) at 27^(@)C is :

At 77^(@)C and one atmospheric pressure , N_(2)O_(4) is 70% dissociated into NO_(2) What will be the volume occupied by the mixture under these conditions if we start with 10 g of N_(2)O_(4) ?

N_(2)O_(4) is 60% dissociated into NO_(2) at 340K and 1 atm pressure. Find the volume of 10 g N_(2)O_(4) occupy under these condition.

At 25^(@)C and 1 atm pressure, the partial pressure in equilibrium mixture of N_(2)O_(4) and NO_(2) , are 0.7 and 0.3 atm , respectively. Calculate the partial pressures of these gases when they are in equilibrium at 25^(@)C and a total pressure of 10 atm .

N_(2)O_(4) dissociates as N_(2)O_(4)(g)hArr2NO_(2)(g) At 40^(@)C and one atmosphere % decomposition of N_(2)O_(4) is 50.3% . At what pressure and same temperature, the equilibrium mixture has the ratio of N_(2)O_(4): NO_(2) as 1:8 ?

N_(2)O_(4) dissociates as N_(2)O_(4)hArr2NO_(2) . At 55^(@)C and one atmospehere, % decomposition of N_(2)O_(4) is 50.3% . At what P and same temperature, the equilibrium mixture will have the ratio of N_(2)O_(4):NO_(2) as 1:8 ?

20% N_(2)O_(4) molecules are dissociated in a sample of gas at 27^(@)C and 1 atm. Calculate the density of the equilibrium mixture.