`PCl_(5),PCl_(3)` and `Cl_(2)` are at equilibrium at `500K` and having concentration `1.59M PCl_(3), 1.59M CL_(2)` and `1.41 MPCl_(5)`. Calculate `K_(c)` for the reaction `PCl_(5)hArrPCl_(3)+Cl_(2)`

PCl_(5) , PCl_(3) and Cl_(2) are at equilibrium at 500K and having concentration 1.59M PCl_(3) , 1.59M Cl_(2) and 1.41 M PCl_(5) . Calcualte K_(c) for the reaction PCl_(5)hArrPCl_(3)+Cl_(2)

PCl_(5), PCl_(3) and Cl_(2) are at equilibrium at 500 K and having concentration 1.59 M PCl_(3), 1.59 M Cl_(2) and 1.41 M PCl_(5) . Calculate K_(c) for the reaction, PCl_(5) hArr PCl_(3) + Cl_(2)

PCl_(5), PCl_(3) and Cl_(2) are at equilibrium at 500 K and having concentration 1.59 M PCl_(3), 1.59 M Cl_(2) and 1.41 M PCl_(5) . Calculate K_(c) for the reaction, PCl_(5) hArr PCl_(3) + Cl_(2)

PCl_(3), PCl_(3) and Cl_(2) are at eqilibrium at 500 K and above have concentration 1.59 M for PCl_(3), 1.59 M for Cl_(2) and 1.41 M for PCl_(5). Calculate K_(c) for the reaction : PCl_(5) hArr PCl_(3) + Cl_(2)

PCl_(5),PCl_(3)andCl_(2) are at equilibrium at 500 K with concentration 2.1 M PCl_(3) , 2.1 M Cl_(2)and"1.9 "MPCl_(5) . The equilibrium constant for the given reaction is PCl_(5(g))hArrPCl_(3(g))+Cl_(2(g))