The reaction `A_((s))hArrB_((s))+C_((g))` attains equilibrium in a close container in such a way that vapour pressure of `C_((g))` is equal to `1 atm`. The incorrect realtionship at equilibrium is:

For the reaction A_((s)) + 2B_((g)) ƒhArr 3C_((g)) . At constant pressure on addition of inert gas, the equilibrium state

For the reaction A(g) + B(g) hArr C(g) at equilibrium the partial pressure of the species are P_(A)=0.15"atm",P_(C)=P_(B)=0.30"atm" . If the capacity of reaction vessel is reduced, the equilibrium is re-established. In the new situation partial pressure A and B become twice. What is the partial pressure of C?

Suppose the reaction PC1_(5(s))hArrPC1_(3(s)) + C1_(2(g)) is in a closed vessel at equilibrium stage. What is the effect on equilibrium concentration of C1_(2(g)) by adding PC1_(5) at constant temperqture ?

A(s)hArrB(g)+C(g) K_(p_(1))=36 atm^(2) E(s)hArrB(g)+D(g) K_(p_(2))=64atm^(2) Both solids A "&" E were taken in a container of constant volume at a give temperature. Total pressure in the container after equilibrium is

At 600^(@)C,K_(P) for the following reaction is 1 atm. X(g) rarr Y(g) + Z(g) At equilibrium, 50% of X (g) is dissociated. The total pressure of the equilibrium system is p atm. What is the partial pressure (in atm) of at equilibrium ?