`8` mol of gas `AB_(3)` are introduced into a `1.0 dm^(3)` vessel. It dissociates as `2AB_(3)(g) hArr A_(2)(g)+3B_(2)(g)`
At equilibrium, 2 mol of `A_(2)` is found to be present. The equilibrium constant for the reaction is

8 moles ofa gas AB_3 are introduced into 1.0 dm^3 vessel. it dissociates as 2AB_3(g) iff A_2(g) + 3B_2(g) . At equilibrium 2 mol of A_2 are found to be present. The equilibrium constant of the reaction is.

8 mole of a gas AB_3 are introduced into a 1.0 dm^3 vessel. It dissociates as, 2AB_3 (g) ⇌ A_2 (g) + 3B_2 (g) At equilibrium, 2 mole of A_2 are found ot be present. What is the equilibrium constant of rection ?

A quantity of PCI _5 was heated in a 2 litre vessel at 525 K . It dissociates as PCI_5 (g) hArr PCI _3 (g) + CI_2 (g) At equilibrium 0.2 mol each of PCI_5 , PCl_3and Cl_2 is found in the reaction mixture. The equilibrium constant K_c for the reaction is -

A quantity of PCI _5 was heated in a 2 litre vessel at 525 K . It dissociates as PCI_5 (g) hArr PCI _3 (g) + CI_2 (g) At equilibrium 0.2 mol each of PCI_5 , PCl_3and Cl_2 is found in the reaction mixture. The equilibrium constant K_c for the reaction is -

4 mole of Sl_(2)Cl_(4)(g) is introduced innto a 10L vessel. The following equilibrium was established S_(2)Cl_(4)(g)hArr2SCl_(2)(g) at equilibrium 0.2 mol of S_(2)Cl_(4) was present in the vessel. The value of equilibrium constant is.

4 mole of Sl_(2)Cl_(4)(g) is introduced innto a 10L vessel. The following equilibrium was established S_(2)Cl_(4)(g)hArr2SCl_(2)(g) at equilibrium 0.2 mol of S_(2)Cl_(4) was present in the vessel. The value of equilibrium constant is.

AB_(3)(g) is dissociation as AB_(2)(g) hArr AB_(2)(g)+(1)/(2)B_(2)(g) , When the initial pressure of AB_(2) is 800 torr and the total pressure developed at equilibrium is 900 torr. What fraction of AB_(3)(g) is dissociated ?

In the decomposition reaction AB_(5)(g)hArrAB_(3)(g)+B_(2)(g) , at equilibrium in a 10 litre closed vessel at 227^(@)C , 2 moles of AB_(3) , 5 moles of B_(2) and 4 moles of AB_(5) , are present. The equilibrium contstant K_(c) for the formation of AB_(5)(g) is