`N_(2)O_(4)` is dissociated to `33%` and `50%` at total pressure `P_(1)` and `P_(2)atm` respectively. The ratio of `P_(1)//P_(2)` is:

N_2O_4 is dissociated to 33% and 40% at total pressure P_1 and P_2 atm respectively. Then the ratio P_(1)//P_(2) is

At some temperature N_2O_4 is dissociated to 40% and 50% at total pressure P_1 and P_2 atm respectively in NO_2 .Then the ratio of P_1 andP_2 is :

N_(2)O_(4) is 10% dissociated at a total pressure P_(1) and 20% dissociated at a total pressure P_(2) .Then ratio 'P_(1)/P_(2) is

At total equilibrium pressure P_(1) atm and P_(2) atm, N_(2)O_(4) is dissociated to an extent of 33.33% and 50% respectively. Ratio of (P_(1))/(P_(2)) will be

N_(2)O_(4)(g) is dissociated to an extent of 20% at equilibrium pressure of 1.0 atm and 57^(@)C . Find the percentage of N_(2)O_(4) at 0.2 atm and 57^(@)C .

N_(2)_(4) is 25% dissociated at 37^(@)C and one atmosphere pressure. Calculate (i) K_(p) and (ii) the percentage dissociation at 0.1 atm and 37^(@)C

N_(2)O_(4) is 25% dissociated at 37^(@)C and 1 atm . Calculate (i) K_(p) and (ii) the percentage dissociation at 0.1 atm and 37^(@)C .

In a rigid contaienr NH_(3) is kept at a certain temperature where its presure is found to be P_(1) , if dissociated into N_(2) and H_(2) at these conditions pressure of mixture is found to be P_(s) . Find ratio of P_(2) of P_(1) .

At 60^(@) N_(2)O_(4) is 50% dissociated at this temperature and one atmosphere pressure the standard free energy change is