Suppose you have 1.00 l of an aqueous buffer containing 60.0 mmol acetic acid (pka = 4.76) and 40.0 mmol acetate. what volume of 3.50 m naoh would be required to increase the ph to 4.93?
Required pH = 4.93 - OH⁻ from NaOH reacts with CH₃COOH giving CH₃COO⁻ and H₂O - Let the volume of 3.5 M NaOH be x ml Moles of NaOH = Moles of OH⁻ = Molarity * x ml = 3.5x mmol - The reaction table for moles is as follows: CH₃COOH + OH⁻ → CH₃COO⁻ + H₂O Initial 60 3.5x 40 Change -3.5x -3.5x +3.5x Final (60-3.5x) 0 (40+3.5x) - Substitute in Henderson equation and solve for x: pH = pKa + log [tex] \frac{[CH_{3}COO^-]}{[CH_3COOH]} [/tex] 4.93 = 4.76 + log [tex] \frac{(40+3.5x)}{(60-3.5x)} [/tex] 0.17 = log [tex] \frac{(40+3.5x)}{(60-3.5x)} [/tex] [tex] \frac{(40+3.5x)}{(60-3.5x)} = 1.479 [/tex] x = 5.62 ml NaOH required
