Using pH and pKa to predict the [conjugate base]/[acid]

K_a = [H₃O⁺] ×	[conjugate base]
	[acid]

The solution in the titration flask is at equilibrium at all times during the titration. The relationship of K_a to [H₃O⁺] (and pH to pK_a) depends on the ratio [conjugate base]/[acid].

Because pH is a logarithmic scale, a change in pH of

one unit corresponds to a ten-fold change in [H₃O⁺]
two units corresponds to a hundred-fold change in [H₃O⁺]

Because pH is defined using -log[H₃O⁺], the pH and [H₃O⁺] change in opposite directions.

In a solution containing a mixture of acids or bases, the strongest determines the pH. The pH then determines, for weaker acids or bases in the same solution, the ratio [conjugate base]/[acid].

At pH = pK_a, [acid] = [conjugate base].
At pH = pK_a – 1, [conjugate base]/[acid] = 0.1
At pH = pK_a + 1, [conjugate base]/[acid] = 10

Thus if either or both members of the conjugate pair are highly coloured, a change of 2 pH units results in a change in the colour of the solution.