For a reversible reaction at constant temperature and at constant pressure the equilibrium composition of reaction mixture corresponds to the lowest point on Gibbls energy Vs progress of reaction diagrams as shown. At equilibrium Gibbs energy of reaction is equal to zero.

Which diagram represents the large value of equilibrium constant for the reversible reaction

For a reversible reaction at constant temperature and at constant pressure the equilibrium composition of reaction mixture corresponds to the lowest point on Gibbls energy Vs progress of reaction diagrams as shown. At equilibrium Gibbs energy of reaction is equal to zero. The value of "log"_(10) K_(eq) is equal to [ k_(eq) is the equilibrium coustant]

For a reversible reaction at constant temperature and at constant pressure the equilibrium composition of reaction mixture corresponds to the lowest point on Gibbls energy Vs progress of reaction diagrams as shown. At equilibrium Gibbs energy of reaction is equal to zero. For a reaction M_(2)O_((s))^(3//4) rarr 2 M_((S)) + (1)/(2) O_(2 (g)) Delta H = 30 KJ//mol and Delta S = 0.07 KJ//mol //K at 1 atm. The reaction would not be spontaneous at temperature

The equilibrium constant for the following reaction is

The equilibrium constant for the following reaction is

The unit for the equilibrium constant of the reaction

The equilibrium constant of the following reaction is

Equilibrium constant of a reaction is elated to :