5.4:

Position of Equilibrium in Acid-Base Reactions

JoVE Central
Organic Chemistry
Se requiere una suscripción a JoVE para ver este contenido.  Inicie sesión o comience su prueba gratuita.
JoVE Central Organic Chemistry
Position of Equilibrium in Acid-Base Reactions

10,813 Views

02:05 min

April 30, 2023

In any solution, the value of pKa indicates whether an acid is completely dissociated or not. A negative pKa corresponds to a stronger acid, whereas a positive pKa corresponds to a weaker acid. Consider the reaction between ammonia and an ethoxide ion. In this reaction, ethanol with a pKa of 15.9 is a stronger acid than ammonia with a pKa of 38. Recall that the strong acid forms a weak conjugate base, and a weak acid forms a strong conjugate base. Hence, the ethoxide ion is a weak base.

Eq1

Figure 1. Acid–base reaction between ammonia and an ethoxide ion

In an equilibrium-controlled acid–base reaction, the equilibrium position always favours the formation of the weaker acid and the weaker base. This is because the weaker acid and the weaker base are the most stable species due to their lower potential energies. Therefore, in this reaction, the equilibrium favours the formation of the ethoxide ion and ammonia.

Additionally, the position of the equilibrium can also be identified using the equilibrium constant that is calculated from pKa values. For an acid–base reaction, the equilibrium constant, Keq, can be calculated by subtracting the pKa value of the acid on the left side from the pKa value of the acid on the right side and then taking the antilog of the result. Depending on the value of the equilibrium constant, the position of the equilibrium is determined. When the value of Keq is greater than 1, the position of the equilibrium lies far to the product side. On the other hand, with the equilibrium constant smaller than 1, the equilibrium lies far to the reactant side.