a moles of `PCl_5` are heated in a closed container to equilibrate `PCl_(5(g)) Leftrightarrow PCl_(3(g))+ Cl_(2(g))` at a pressure of P atm. If x moles of `PCI_5` dissociate at equilibrium, then

a' moles of PCl_(5) are heated in a closed container to equilibrate PCl_(5) (g) hArr PCl_(3)(g) + Cl_(2) (g) at a pressure of p atm . If x moles of PCl_(5) dissociate at equilibrium , then

For the reaction, PCl_(5)(g)to PCl_(3)(g)+Cl_(2)(g)

For a reaction at equilibrium PCl_(5(g)) Leftrightarrow pcL_(3(G))+Cl_(2(g)) , the degree of dissociation of PCl_(5) at 2 atm is 0.02. Then the degree of dissociation at 4 atm is

PCl_(5) dissociation a closed container as : PCl_(5(g))hArrPCl_(3(g))+Cl_(2(g)) If total pressure at equilibrium of the reaction mixture is P and degree of dissociation of PCl_(5) is alpha , the partial pressure of PCl_(3) will be:

n mole of PCl_(3) and n mole of Cl_(2) are allowed to react at constant temperature T to have a total equilibrium pressure P , as : PCl_(3)(g)+Cl_(2)(g) hArr PCl_(5)(g) If y mole of PCl_(5) are formed at equilibrium , find K_(p) for the given reaction .