In the continuous titration of of with , distinct intermediate buffer regions and equivalence points — Ionic Equilibrium Chemistry Question
Question
In the continuous titration of $100 \text{ mL}$ of $0.1 \text{ M } H_3PO_4$ with $0.1 \text{ M } NaOH$, distinct intermediate buffer regions and equivalence points are established. Which of the following correctly represent the primary species determining the pH during the specific stages?
Answer: A,B,D
💡 Solution & Explanation
The titration of triprotic $H_3PO_4$ proceeds in three steps. Step 1 buffer is $H_3PO_4 / H_2PO_4^-$. At Equivalence 1, $NaH_2PO_4$ forms, and its amphiprotic anion $H_2PO_4^-$ determines pH via $\frac{pK_{a1}+pK_{a2}}{2}$. During the second step, the buffer is $H_2PO_4^- / HPO_4^{2-}$, so at half-neutralization of the second proton, $pH = pK_{a2}$, not $pK_{a3}$. Step 3 creates an $HPO_4^{2-} / PO_4^{3-}$ buffer.
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