According to Henderson-Hasselbalch equation, when the pH of a solution becomes equal to its pKa, the solution becomes a buffer. This condition is achieved when ?

The concentration of proton donor equals the concentration of proton acceptor

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Concentration of proton donor become zero

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Concentration of proton acceptor become zero

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The concentration of proton donor become log 1/10th of concentration of proton acceptor

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Solution

The correct option is A The concentration of proton donor equals the concentration of proton acceptor
According to Henderson-Hasselbalch equation
$p H = (14 - p K_{b}) - l o g (\frac{[Conjugate Acid]}{[Base]})$ At $25^{o} C, p K_{a} + p K_{b} = p K_{w} = 14$
$p H = p K_{a} - l o g (\frac{[Conjugate Acid]}{[Base]})$
Acoording to Bronsted-Lowry, Conjugate Acid is proton donor and base is proton acceptor.
when $[Conjugate Acid] = [Base]$
$\Rightarrow [Proton donor]=[Proton acceptor] = 1$
$p H = p K_{a} - l o g \frac{1}{1}$
$p H = p K_{a} - l o g 1$
$p H = p K_{a} (∵ l o g 1 = 0)$

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