The formation of phosgene is represented as,
`CO+Cl_(2)hArrCOCl_(2)`
The reaction is carried out in 500 mL flask. At equilibrium 0. 3 mole of phosgene, 0. 1 mole of CO and 0. 1 mole of `Cl_(2)` are present.
The equilibrium constant of the reaction is :

The equilibrium of formation of phosgene is represented as : CO(g)+Cl_(2)(g)hArrCOCl_(2)(g) The reaction is carried out in a 500 mL flask. At equilibrium, 0.3 mol of phosgene, 0.1 mol of CO , and 0.1 mol of Cl_(2) are present. The equilibrium constant of the reaction is

5 mole of X are mixed with 3 moles of Y. At equilibrium for the reaction, X + Y rarr Z 2 moles of Z are formed. The equilibrium constant for the reaction will be

4 moles of A are mixed with 4 moles of B. At equilibrium for the raction A+BhArrC+D , 2 moles of C and D are formed. The equilibrium constant for the reaction will be

A quantity of PCI_(5) was heated in a 10 llitre vessel at 250^(@)C, PCI_(5)(g)hArrPCI_(3)(g) + CI_(2)(g) . At equilibrium the vessel contains 0.1 mole of PCI_(5), 0.20 mole of PCI_(3) and 0.2 mole of CI_(2) . The equilibrium constant of the reaction is

At a certain temperature 2 moles of carbonmonoxide and 3 moles of chlorine were allowed to reach equilibrium according to the reaction CO+Cl_(2)hArrCOCl_(2) in a 5 lit vessel. At equilibrium if one mole of CO is present then equilibrium constant for the reaction is :

In a 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+Cl_(2) hArr COCl_(2) is