Assertion : The value of K gives us a relative idea about the extent to which a reaction proceeds.
Reason : The value of K is independent of the stoichiometry of reactants and products at the point of equilibrium.

Assertion : The equilibrium constant for the reverse reaction is equal to the inverse of the equilibrium constant for the forward reaction . Reason : The value of equilibrium constant is independent of initial concentrations of the reactants and products.

Assertion (A) : Greater the value of K, more is the fraction of initial concentration of reactants converted to products at equilibrium. Reason (R) : The value of K depends on the initial concentration of reactants.

For the reaction, H_(2) + I_(2)hArr 2HI, K = 47.6 . If the initial number of moles of each reactant and product is 1 mole then at equilibrium

Chemical equilibrium is attained in a reversible reaction carried in a close container and is of dynamic nature. The value of equilibrium constant may be expressed either as K_(p)" and " K_(c) and the two are related to each other as : K_(p) =K_(c)(RT)^(Deltang) Free energy change (DeltaG) at equilibrium point is zero. The value of equilibrium constant gives the extent to which a particular reation has proceeded to attain the equilibrium . Its value gets reversed if the reaction is reversed and becomes the square root of the initial value if the reaction is divided by 2. when the two reactants A and B are mixed to give products C and D , the reaction quotient Q at initial stage of the reaction: