MHT CET · Chemistry · Ionic Equilibrium
A buffer solution is prepared by mixing 0.01 M HCN and 0.02 MNaCN . If \(\mathrm{K}_{\mathrm{a}}\) for HCN is \(6.6 \times 10^{-10}\), what is the concentration of \(\mathrm{H}^{+}\)ions in solution?
- A \(3.3 \times 10^{-6} \mathrm{M}\)
- B \(3.3 \times 10^{-10} \mathrm{M}\)
- C \(1.32 \times 10^{-6} \mathrm{M}\)
- D \(1.32 \times 10^{-10} \mathrm{M}\)
Answer & Solution
Correct Answer
(B) \(3.3 \times 10^{-10} \mathrm{M}\)
Step-by-step Solution
Detailed explanation
For an acidic buffer solution,
\(\begin{aligned}
& \mathrm{pH}=\mathrm{pK}_{\mathrm{a},}+\log _{10} \frac{[\text { Salt }]}{[\text { Acid }]} \\
& \mathrm{pH}=-\log _{10}\left(6.6 \times 10^{-10}\right)+\log _{10} \frac{0.02}{0.01} \\
& \left(\because \mathrm{pK}_{\mathrm{a}}=-\log _{10}\left[\mathrm{~K}_{\mathrm{a}}\right]\right) \\
\therefore \quad & \mathrm{pH}=9.18+\log _{10} 2=9.18+0.3010=9.481 \\
& \mathrm{pH}=-\log _{10}\left[\mathrm{H}^{+}\right] \\
\therefore \quad & {\left[\mathrm{H}^{+}\right]=\operatorname{Antilog}(9.481)=3.3 \times 10^{-10} \mathrm{M} }
\end{aligned}\)
\(\begin{aligned}
& \mathrm{pH}=\mathrm{pK}_{\mathrm{a},}+\log _{10} \frac{[\text { Salt }]}{[\text { Acid }]} \\
& \mathrm{pH}=-\log _{10}\left(6.6 \times 10^{-10}\right)+\log _{10} \frac{0.02}{0.01} \\
& \left(\because \mathrm{pK}_{\mathrm{a}}=-\log _{10}\left[\mathrm{~K}_{\mathrm{a}}\right]\right) \\
\therefore \quad & \mathrm{pH}=9.18+\log _{10} 2=9.18+0.3010=9.481 \\
& \mathrm{pH}=-\log _{10}\left[\mathrm{H}^{+}\right] \\
\therefore \quad & {\left[\mathrm{H}^{+}\right]=\operatorname{Antilog}(9.481)=3.3 \times 10^{-10} \mathrm{M} }
\end{aligned}\)
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