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

N_(2) O_(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 K_(p)

PCI_5 is 47.1% dissociated at 18°C and one atmospheric pressure. Calculate the value of K_p .

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 .

Calculate the percentage dissociation of 0.5 M NH_(3) at 25^(@)C in a solution of pH = 12.

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:

A 5% solution of CaCl_(2) at 0^(@)C developed 15 atmospheric pressure. Calculate the degree of dissociation. (mol. wt. (M) of CaCl_(2) = 111 a.m.u., R = 0.0821 L atm. K^(-1) "mol"^(-1) )

The ratio of the rate of diffusion of a sample of N_(2)O_(4) partially dissociated in to NO_(2) to pure hydrogen was found to be 1:5 . Calculate the degree of dissociation of N_(2)O_(4) .

At 523 K, 1 litre of partially dissociated PCI_(5) at 1 atm weighs 2.695g . Calculate the percentage dissociation of PCI_(5) "at "523 K .

The degree of dissociation of PCl_(5) at 1 atm pressure is 0.2 . Calculate the pressure at which PCl_(5) is dissociated to 50% ?