`15` mol of `H_(2)` and `5.2` moles of `I_(2)` are mixed and allowed to attain eqilibrium at `500^(@)C` At equilibrium, the concentration of HI is founf to be `10` mol. The equilibrium constant for the formation of HI is.

15 moles of H_(2) and 5.2 moles of I_(2) are mixed and allowed to attain equilibrium at 500^(@)C . At equilibrium, the concentration of HI is found to be 10 moles. The equilibrium constant for the formation of HI is

15 moles of H_(2) and 5.2 moles of I_(2) are mixed are allowed to attain equilibrium at 500^(@)C . At equilibrium the concentration of HI is found to be 10 moles. The equilibrium constant for the formation of HI is

15 moles of H_(2) and 5.2 moles of I_(2) are mixed and allowed to attain equilibrium at 500^(@)C . At equilibrium, the number of moles of HI is found to be 10 mole. The equilibrium constant for the formation of HI is

For a reaction X+Y = 2Z , 1.0 mo of X 1.5 mol of Y and 0.5 mol of Z where taken in a 1L vessel and allowed to react . At equilibrium , the concentration of Z was 1.0 mol L^(-1) . The equilibrium constant of the reaction is _____ (x)/(15) . The value of x is _____.

For a reaction X+Y = 2Z , 1.0 mo of X 1.5 mol of Y and 0.5 mol of Z where taken in a 1L vessel and allowed to react . At equilibrium , the concentration of Z was 1.0 mol L^(-1) . The equilibrium constant of the reaction is _____ (x)/(15) . The value of x is _____.

4 g H_(2) & 127 g I_(2) are mixed & heated in 10 lit closed vessel until equilibrium is reached. If the equilibrium concentration of HI is 0.05 M, total number of moles present at cquilibrium is