There is no relationship between the two, because the equilibrium constant is only related to temperature, and the conversion rate of reactants is affected by many factors such as temperature, pressure, concentration of other reactants, and self-concentration.

Under certain conditions, the concentration ratio of products to reactants or the concentration ratio of reaction products to reaction substrates when reversible chemical reactions reach equilibrium.

The conversion rate refers to the percentage or fraction of the reactant conversion, and the transformant is aimed at the reactant. If there is more than one reactant, the conversion values calculated according to different reactants may be different, but they all reflect the same objective fact. Therefore, the conversion rate can be calculated from the reactant.

Influencing factors of equilibrium constant

(1) equilibrium constant is the characteristic constant of chemical reaction. It does not change with the initial concentration (or partial pressure) of the substance, but only depends on the nature of the reaction. For a certain reaction, as long as the temperature remains unchanged, the equilibrium constant remains unchanged, and any other changes in conditions will not affect its value.

The equilibrium constant k is only affected by temperature and has nothing to do with the change of concentration or pressure of any reactant or product. Because the catalyst changes the positive and negative reaction rates to the same extent, the equilibrium constant is not affected by the catalyst.

(2) The value of the equilibrium constant is a sign of the progress of the reaction. It can well indicate the complete degree of the reaction. The greater the k value of a reaction, the greater the concentration of products at equilibrium, the smaller the residual concentration of reactants, and the greater the conversion rate of reactants, that is, the stronger the trend of positive reaction.

Or vice versa, what is the reversible reaction from Dallas to the auditorium? When the temperature is constant and other conditions that affect the chemical equilibrium change, even if the equilibrium shifts, the value of K remains unchanged.