A vessel of one litre capacity containing 1 mole of `SO_(3)` is heated till a state of equilibrium is attained.
`2SO_(3(g))hArr 2SO_(2(g))+O_(2(g))`
At equilibrium, 0.6 moles of `SO_(2)` had formed. The value of equilibrium constant is

One mole of SO_(3) was placed in a litre reaction vessel at a certain temperature. The following equilibrium was established 2SO_(3)(g)hArr 2SO_(2)(g)+O_(2)(g) At equilibrium 0.6 moles of SO_(2) were formed. The equilibrium constant of the reaction will be

One mole of SO_(3) was placed in a litre reaction flask at a given temperature when the reaction equilibrium was established in the reaction. 2SO_(3) hArr 2SO_(2)+O_(2) the vessel was found to contain 0.6 mol of SO_(2) . The value of the equilibrium constant is

One mole of SO_(3) was placed in a litre reaction flask at a given temperature when the reaction equilibrium was established in the reaction. 2SO_(3) hArr 2SO_(2)+O_(2) the vessel was found to contain 0.6 mol of SO_(2) . The value of the equilibrium constant is

At equilibrium degree of dissociation of SO_(3) is 50% for the reaction 2SO_(3)(g)hArr 2SO_(2)(g)+O_(2)(g) . The equilibrium constant for the reaction is

At equilibrium degree of dissociation of SO_(3) is 50% for the reaction 2SO_(3)(g)hArr 2SO_(2)(g)+O_(2)(g) . The equilibrium constant for the reaction is

For the equilibrium 2SO_(2)(g)+O_(2)(g) 2SO_(3)(g),DeltaH=-198KJ , the equilibrium concentration of SO_(3) will be affected by

For the equilibrium 2SO_(2)(g)+O_(2)(g) 2SO_(3)(g),DeltaH=-198KJ , the equilibrium concentration of SO_(3) will be affected by

1.2 moles of SO_(3) are allowed to dissociate in a 2 litre vessel the reaction is 2SO_(3(g)) hArr 2SO_(2(g)) +O_(2(g)) and the concent ration of oxygen at equilibrium is 0.1 mole per litre. The total number of moles at equilibrium will be

The degree of dissociation of SO_(3) at equilibrium pressure is: K_(p) for 2SO_(3) (g)hArr2SO_(2)(g) + O_(2) (g)