`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

N_2O_4 is dissociated to 33% and 40% at total pressures P_1 and P_2 atm respectively. Hence, the ratio of P_1 to P_2 is

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_(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_(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:

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

x mol N_(2) O_(4) is taken at P_1 atm in a closed vessel & heated . When 75% N_2 O_4 dissociated at equilibrium , total pressure is found to be P_2 atm . The relation between P_1 and P_2 is

N_(2)O_(4) is 25% dissociated at 37^(@)C and 1 atm . Calculate K_(p)

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