Pure `PCl_(5) ` is introduced into an evacuated chamber and to equilibrium at `247^(@)C` and 2.0 atm .The equilibrium gases mixure contains 40% chlorine by volume .
Calculate `K_(p)` at `247^(@)C` for the reaction
`PCl_(5)(g)hArrPCl_(3)(g)+Cl_(2)(g)`

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)

At 27^(@)C, K_(p) value for the reversible reaction PCl_(5)(g)harrPCl_(3)(g)+Cl_(2)(g) is 0.65, calculate K_(c) .

SO_(2) CI_(2) and CI_(2) are introduced into a 3L vessel. Partial pressure of SO_(2) CI_(2) and CI_(2) at equilibrium are I atm and 2 atm respectively. The value of K_(p) is 10 for the reaction SO_(2) Cl_(2) (g) hArr SO_(2) (g) + Cl_(2) (g). The total pressure in atm at equilibrium would be ____

Derive the relation between K_(p) and K_(c) for the equilibrium reaction. N_(2)(g)+3H_(2)(g)hArr 2NH_(3)(g)

Initially 0.8 mole of PCl_(5) and 0.2 mole of PCl_(3) are mixed in one litre vessel . At equilibrium 0.4 mole of PCl_(3) is present . The value of K_(C) for the reaction PCl_(5(g)) hArr PCl_(3(g)) + Cl_(2(g)) is

In the equilibrium reaction, A(g) + 2B(g) + (g), the equilibrium constant, K_(c) is given by the expression

For the equilibrium , 2NOCl(g)hArr2NO(g)+Cl_(2)(g) the value of the equilibrium constant, K_(c) is 3.75xx10^(-6) at 1069K . Calculate the K_(p) for the reaction at this temperature ?

One mole of N_(2) and 3 mole of PCI_(5) are placed in a 100 litre vessel heated to 227^(@) c. The equilibrium pressure is 2.05 atm. Assuming ideal behaviour, If K_(p) of the reaction PCl_(5) hArr PCl_(3)+Cl_(2) is y xx 10^(-1) then what is 'y'?