5 litre vessel contains 2 moles of each of gases A and B at equilibrium. If 1 mole each of A and B are removed. Calculate `K_(C)` for the reaction `A(g) iffB(g)`

A 1-litre vessel contains 2 moles each of gases "A,B,C and D at equilibrium. If 1 mole each of A and B are removed K_(C) for A+B harr C+D will be a) 4 b) 1 c) (1)/(4) d) 2

A one litre vessel contains 3 moles each of gases A, B, C and D at equilibrium. If one mole each of A and B are removed K_(C) for A(g)+B(g)hArrC(g)+D(g) will be

A one litre vessel contains 3 moles each of gases A, B, C and D at equilibrium. If one mole each of A and B are removed K_(C) for A(g)+B(g)hArrC(g)+D(g) will be

In a vessel of 5L,26 moles of A and 4 moles of B were placed. At equilibrium 1 mole of C was present. The K_(C) for the reaction : A+2BhArrC is

In a vessel of 5L,26 moles of A and 4 moles of B were placed. At equilibrium 1 mole of C was present. The K_(C) for the reaction : A+2bhArrC is

In 500 ml capacity vessel CO and Cl_(2) are mixed to form COCl_(2) . At equilibrium, it contains 0.2 moles of COCl_(2) and 0.1 mole of each of CO and Cl_(2) , The equilibrium constant K_(C) for the reaction CO(g)+Cl(g)hArrCOCl_(2)(g) is

In 500 ml capacity vessel CO and Cl_(2) are mixed to form COCl_(2) . At equilibrium, it contains 0.2 moles of COCl_(2) and 0.1 mole of each of CO and Cl_(2) , The equilibrium constant K_(C) for the reaction CO(g)+Cl(g)hArrCOCl_(2)(g) is

For the reaction A+BhArr3C at 25^(@)C , a 3 litre volume reaction vessel contains 1,2 and 4 moles of A,B and C respectively at equilibrium, calculate the equilibrium constant K_(c) of the reaction at 25^(@)C .

For the reaction A+BhArr3C at 25^(@)C , a 3 litre volume reaction vessel contains 1,2 and 4 moles of A,B and C respectively at equilibrium, calculate the equilibrium constant K_(c) of the reaction at 25^(@)C .