`PCl_5` was taken at 2 atm in a closed vessel at `154^@C` Keeping the temperature constant `PCl_5 leftrightarrow PCl_3+Cl_2` equilibrium is established when 50% of `PCl_5` decomposes. Calculate the `K_p` for the equilibrium.

Express the rate of following reactions PCl_5 to PCl_3 +Cl_2

PCl_(5) overset(Delta)to PCl_(3)+Cl_(2)

PCl_(5) overset(Delta)to PCl_(3)+Cl_(2)

One mole of PCl_5 is heated in a 2L vessel. When equilibrium is attained, the vessel is found to contain 0.2 moles of PCl_5 Calculate the equilibrium constant.

For the reaction PCl_5

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 -

For the equilibrium PCl_5(g)hArr PCl_3(g) +Cl_2 , the value of the equilibrium constant decreases on additions of Cl_2 gas.

Unit of equilibrium constant K_p for the reaction PCl_5(g) hArr PCl_3(g)+ Cl_2(g) is