`I_(2)(aq)+I^(-)(aq)hArr(aq).` We started with 1 mole of `I_(2)` and 0.5 mole of `I_(-)` in one litre flask.After equilibrium is reached , excess of `AgNO_(3)` gave 0.25 mole of yellow precipitate. Equilibium constant is :

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

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

In 5 litre container 1 mole of H_(2) and 1 mole of I_(2) are taken initially and at equilibrium of HI is 40% . Then K_(p) will be

2 mole of H_(2) and "1 mole of "I_(2) are heated in a closed 1 litre vessel. At equilibrium, the vessel contains 0.5 mole HI. The degree of dissociation of H_(2) is

1.1 moles of A are mixed with 2.2 moles of B and the mixture is kept in a one litre flask till the equilibrium A+ 2B hArr 2C + D is reached. At equilibrium, 0.2 moles of C are formed. The equilibrium constant of the reaction is

1.1 mole of A and 2.2 moles of B reach an cquilibrium in I lit container according to the reaction. A + 2B hArr 2C + D. If at equilibrium 0.1 mole of D is present, the equilibrium constant is:

0.5 mol of H_(2) and 0.5 mol of I_(2) react in 10 L flask at 448^(@)C . The equilibrium constant (K_(c )) is 50 for H_(2)+I_(2) hArr 2HI a. What is the value of K_(p) ? b. Calculate the moles of I_(2) at equilibrium.

One mole of H_(2) and 2 moles of I_(2) are taken initially in a two litre vessel. The number of moles of H_(2) at equilibrium is 0.2. Then the number of moles of I_(2) and HI at equilibrium is

1.1 mole of A mixed with 2.2 mole of B and then the mixture is then kept in one litre flask till the equilibrium is attained A+2B⇌2C+D . At the equilibrium 0.2 mole of C is formed, then the value of K_(c) will be:

3 moles of H_2 and 2 moles of I_2 were heated in a 2 litre vessel at 717 K till the equilibrium was reached. Assuming that the equilibrium constant is 48, calculate the equilibrium concentrations of H_2 I_2 and HI.