`3.2` moles of hydrogemn iodide was heted in a sealed bulb at `444^(@)C` till the equilibrium state was reached. Its degree of dissociation sat this temperature was found to be `22%`. The number of moles of hydrogen iodide present at equilibrium is

3.2 mole of hydrogen iodide were heated in a sealed bulb at 444^Oc till the equilibriumn was reached . The degreee of dissociation of HI at this temperature was found to be 22% calculate the number of mole of hydrogen iodide present at equlibrium.

3.2 moles of HI were heated in a sealed bulb at 444^(@)C till the equilibrium was reached. Its degree of dissociation was found to be 20% . Calculate the number of moles of hydrogen iodide, hydrogen and iodine present at the equilibrium point and determine the value of equilibrium constant.

3.2 moles of HI were heated in a sealed bulb at 444^(@)C till the equilibrium was reached. Its degree of dissociation was found to be 20% . Calculate the number of moles of hydrogen iodide, hydrogen and iodine present at the equilibrium point and determine the value of equilibrium constant.

3.2 moles of HI (g) were heated in a sealed bulb at 444^(@)C till the equlibrium was reached its degree of dissociation was found to be 20% Calculate the number of moles of hydrogen iodide, hydrogen and iodine present at eth equlibrium point and determine the value of equlibrium constnat for the reaction 2Hl(g)hArrH_(2)(g)+I_(2)(g). Considering the volume of the container 1 L.

3.2 moles of HI (g) were heated in a sealed bulb at 444^(@)C till the equlibrium was reached its degree of dissociation was found to be 20% Calculate the number of moles of hydrogen iodide, hydrogen and iodine present at eth equlibrium point and determine the value of equlibrium constnat for the reaction 2Hl(g)hArrH_(2)(g)+I_(2)(g). Considering the volume of the container 1 L.

HI was heated in a sealed tube at 400^(@)C till the equilibrium was reached. HI was found to be 22% decomposed. The equilibrium for decomposition is :

HI was heated in a sealed tube at 400^(@)C till the equilibrium was reached. HI was found to be 22% decomposed. The equilibrium constant for dissociation is

HI was heated in a sealed tube at 400^(@)C till the equilibrium was reached. HI was found to be 22% decomposed. The equilibrium constant for dissociation is