For the reaction `PCl_(5(g))hArrPCl_(3(g))+Cl_(2(g))`, the forward reaction at constant temperature is favoured by

For the reaction PCl_(5)(g)hArrPCl_(3)(g)+Cl_(2)(g), the forward reaction at constant temperature favorrd by :

For the reaction : PCl_(5) (g) rarrPCl_(3) (g) +Cl_(2)(g) :

For the reaction : PCl_(5) (g) rarrPCl_(3) (g) +Cl_(2)(g) :

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

For the reaction PCl_(5)hArrPCl_(3)+Cl_(2) , Supposing at constant temperature, if the volume is increased 16 times the initial volume, the degree of dissociation for this reaction will becomes:

For the reaction PCl_5

For PCl_(5)(g)hArrPCl_(3)(g)+Cl_(2)(g), write the expression of K_(c)

The equilibrium constant (K_(p)) for the reaction, PCl_(5(g))hArrPCl_(3(g))+Cl_(2(g)) is 16 . If the volume of the container is reduced to half of its original volume, the value of K_(p) for the reaction at the same temperature will be:

For the reaction PCl_(5)(g)hArr PCl_(3)(g)+Cl_(2)(g) , the equation connecting the degree of dissociation (alpha) of PCl_(5)(g) with the equilibrium constant K_(p) is

For the reaction PCl_(5)(g)hArrPCl_(3)(g)+Cl_(2)(g) Which of the following sketches may represent above equilibrium? Assume equilibrium can be achieved from either side and by taking any one or more components initially. Give K_(c ) for the reaction lt 2 ?