`4.5` moles each of hydrogen and iodine heated in a sealed 10 litrevesel. At equilibrium, 3 moles of HI was foun. The equilibrium constant for `H_(2)(g) + I_(2) (g)hArr2HI(g)` is

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

1.50 moles each of hydrogen and iodine is p[laced in a sealed 10 litre container maintained at 717 K. At equilibrium 1.25 moles each of hydrogen and iodine were left behind. The equilibrium constant K_(c) for the reaction H_(2)(g) + I_(2)(g)hArr2HI(g) at 717 K is

If for homogeneous equilibrium, H_2(g)+I_2(g)hArr2HI(g), K_(eq)=1 , then

1.50 moles each of hydrogen and iodine were placed in a sealed 10 litre container maintained at 717 K. At equilibrium 1.25 moles each of hydrogen and iodine were left behind. The equilibrium constant, K_(c) for the reaction , H_(2)(g)+I_(2)(g) hArr 2Hl(g) at 717 K is

The value of equilibrium constant of the reaction, H(g) hArr(1)/(2) H_(2)(g) is 0.8 . The equilibrium constant of the reaction H_(2)(g) + I_(2)(g)hArr2HI(g) will be

Which of the following will not affect the value of equilibrium constant of the reaction H_(2)(g) +I_(2) hArr 2HI(g)