Equimolar concentrations of `H_(2)` and `I_(2)` are heated to equilibrium in a 2 L flask. At equilibrium, the forward and backward rate constants arer found to be equal. What percentage of initial concentration of `H_(2)` has reached at equilibrium ?

Equi molar concentrations of H_(2) and l_(2) are heated to equilibrium in a closed container. At equilibrium, the forward and backward rate constants are found to be equal. What % of the initial concentration of H_(2) reacted and got consumed at equilibrium?

Equimolar concentration of H_(2) and I_(2) are heated to equilibrium ina 1 liter flask. What percentage of initial concentration of H_(2) has reacted at equilibrium, the rate constant for the forward reaction is 25xx10^(2) and the equilibrum constant is 50. The rate constant for the reverse reaction 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

A mixture of 2 moles of N_(2) and 8 moles of H_(2) are heated in a 2 lit vessel, till equilibrium is established. At equilibrium, 04 moles of N_(2) was present. The equilibrium concentration of H_(2) will be

A mixture of 2 moles of N_(2) and 8 moles of H_(2) are heated in a 2 lit vessel, till equilibrium is established. At equilibrium, 04 moles of N_(2) was present. The equilibrium concentration of H_(2) will be