Video: Titration of a Polyprotic Acid

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16.9 : Titration of a Polyprotic Acid

A polyprotic acid contains more than one ionizable hydrogen and undergoes a stepwise ionization process. If the acid dissociation constants of the ionizable protons differ sufficiently from each other, then the titration curve for such polyprotic acid generates a distinct equivalence point for each of its ionizable hydrogens. Therefore, titration of a diprotic acid results in the formation of two equivalence points, whereas the titration of a triprotic acid results in the formation of three equivalence points on the titration curve.

Carbonic acid, H₂CO₃, is an example of a weak diprotic acid. The first ionization of carbonic acid yields hydronium ions and bicarbonate ions in small amounts.

First ionization:

Eq1

The bicarbonate ion can also act as an acid. It ionizes and forms hydronium ions and carbonate ions in even smaller quantities.

Second ionization:

Eq2

The K_a1 is larger than the K_a2 by a factor of 10⁴. Therefore, when H₂CO₃ is titrated with a strong base like NaOH, it produces two distinct equivalence points for each ionizable hydrogen.

Phosphoric acid, a triprotic acid, ionizes in three steps:

First ionization:

Eq3

Second ionization:

Eq4

Third ionization:

Eq5

When H₃PO₄ is titrated with a strong base like KOH, it produces three equivalence points for each ionizable hydrogen. However, as HPO₄²⁻ is a very weak acid, the third equivalence point is not easily discernible on the titration curve.

This text is adapted from Openstax, Chemistry 2e, Section 14.5: Polyprotic Acids.

Tags

Polyprotic Acid Ionizable Protons Ka Dissociation Constant Sulfurous Acid Titration Curve Strong Base Sodium Hydroxide Hydrogen Sulfite Ions Equivalence Point PH Half equivalence Point Second Ionizable Proton Diprotic Acid Neutralization Step Triprotic Phosphoric Acid

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16.9 : Titration of a Polyprotic Acid

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