`I_(2)+I^(ɵ)hArrI_(3)^(ɵ)`
This reaction is set-up in aqueous medium. We start with `1` mol of `I_(2)` and `0.5` mol of `I^(ɵ)` in `1 L` flask. After equilibrium reached, excess of `AgNO_(3)` gave `0.25` mol of yellow precipitate. Equilibrium constant is

1.1 mol of A is mixed with 2.2 mol of B and the mixture is kept in a one - itre flask till the equilibrium, A+2BhArr 2C+D is reached. At equilibrium 0.2 mol of C is formed. The equilibrium constant of the above reaction is

In a reaction A+2B hArr 2C, 2.0 moles of 'A' 3 moles of 'B' and 2.0 moles of 'C' are placed in a 2.0 L flask and the equilibrium concentration of 'C' is 0.5 mol // L . The equilibrium constant (K) for the reaction is

1.1 mole of A is mixed with 1.2 mol of B and the mixture is kept in a 1 L flask till the equilibrium A+2B hArr 2C+D is reached. At equilibrium 0.1 mol of D is formed . The K_c of the reaction

2SO_(2)(g)+O_(2)(g)hArr2SO_(3)(g) Starting with 2 mol of SO_(2) and 1 mol O_(2) in one litre flask. After some time equilibrium established. In another experiment same mol of SO_(2) presetn at equilibrium required 1000 ml 0.4 M KMnO_(4) ub acidic medium. The value of equilibrium constant K_(C) for the reaction is