`2HI(g) rarr H_(2)(g) + I_(2)(g)`
The equilibrium constant of the above reaction is 6.4 at 300 K. If 0.25 mole each of `H_(2) "and" I_(2)` are added to the system, the equilibrium constant will be

For a reaction H_(2(g))+I_(2(g))rArr2HI_((g))at 721^(@)C the value of equilibrium constant is 50 . If 0.5 moles each of H_(2) & I(2) is added to the system the value of equilibrium constant will be .

The equilbrium constant of the reaction H_(2)(g)+I_(2)(g)hArr 2HI(g) is 50. If the volume of the container is reduced to half of its original value, the value of equilibrium constant will be

For the reaction, 2HI(g) rarr H_(2)(g) + I_(2) (g) - Q KJ , the equilibrium constant depends upon

If the equilibrium constant of the reaction 2HIhArr H_(2)+I_(2) is 0.25, then the equilibrium constant for the reaction, H_(2)(g)+I_(2)(g)hArr 2HI(g) would be

At 440^(@)C , the equilibrium constant (K) for the following reaction is 49.5, H_(2)(g)+I_(2)(g) hArr 2HI(g) . If 0.2 mol of H_(2) and 0.2 mol of I_(2) are placed in a 10-L vessel and permitted to react at this temperature, what will be the concentration of each substance at equilibrium?

The equilibrium constant K_(p) for the reaction H_(2)(g)+I_(2)(g) hArr 2HI(g) changes if:

Write the equilibrium constant of the reaction C(s)+H_(2)O(g)hArrCO(g)+H_(2)(g)

The equilibrium constant for the reaction N_(2)(g)+3H_(2)(g)hArrNH_(3)(g) is K' K and K' will be related to each other as

The equilibrium constant (K_(c)) for the reaction 2HCl(g)hArrH_(2)(g)+Cl_(2)(g) is 4xx10^(-34) at 25^(@)C .what is the equilibrium constant K_p for the reaction ?

For the reaction H_(2)(g)+I_(2)(g) hArr 2HI(g) , the rate of reaction is expressed as