Two moles of `NH_(3)` when put into a proviously evacuated vessel (one litre) pertially dissociate into `N_(2)` and `H_(2)`. If at equilibrium one mole of `NH_(3)` is present, the equilibrium constant is

Two moles of NH_(3) when put into a previously evacuated vessel (one litre) partially dissociate into N_(2) and H_(2) . If at equilibrium one mole of NH_(3) is present, the equilibrium constant is

Two moles of ammonia gas are introduced into a previously evacuated 1.0" dm"^(3) vessel in which it partially dissociates at high temperature. At equilibrium 1.0 mole of ammonia remains. The equilibrium constant K_(c) for the dissociation is

Two moles of ammonia gas are introduced into a previously evacuated 1.0" dm"^(3) vessel in which it partially dissociates at high temperature. At equilibrium 1.0 mole of ammonia remains. The equilibrium constant K_(c) for the dissociation is

Two moles of ammonia gas are introduced into a previously evacuated 1.0" dm"^(3) vessel in which it partially dissociates at high temperature. At equilibrium 1.0 mole of ammonia remains. The equilibrium constant K_(c) for the dissociation is

Two moles of NH_3 gas are introduced into a previously evacuated one litre vesel in which it partially dissociates at high temperature as 2NH_3(g) hArr N_2 (g) +3H_2(g) .at equilibrium , one mole of NH_3(g) remain . The value of K_c 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

Two moles of ammonia gas are introduced into a previously evacuated 1 L flask in which it partially dissociates at high temperature as : 2NH_(3)(g)hArr N_(2)(g)+3H_(2)(g) At equilibrium 1.0 mole of NH_(3)(g) is found. What is K_(c ) ?