Question

A buffer solution is made from 0.235 M in HC2H3O2 and 0.265 M NaC2H3O2 (the Ka of acetic acid is 1.79 x 10-5).

a. Determine the pH of the buffer solution

b. What is the pH of the buffer solution when a 0.100 M HCl solution is added?

c. What is the pH of the buffer solution when a 0.125 M NaOH solution is added?

Answer 1

Given that buffer solution has been prepared by taking 0.235M of HGH₂o, ire (acetic acid) and 0.265 M of NaC H₂O live sotium acetate) ka(CH₂ool) 1.79 x 10-5 - pka (CH₂COOH) -log (1.79x105) 4.747 As, By Henderson- Hesselbalch equation, pH of the buffer solution can be calculated by pH = pka + log [ CH₂ Coona] [CH₂000H -log ka = 4.747 + tlog 0.265 4.747 + 0.052 0.235 4.80 b) again, new 4.747 + log I pH = 4.799 ~ But when 0.100M Hee solution is added then it will decrease the concentration of CH₃COONa by 0.100m & increase the concentration of CH₂ cool by 0.100 mas 41₂ COONa + HCl - CH₃COOH + Nace H will be, $ pka + log [cH₃cOona] net [CH3cook] het (0.265 - 0.100) (0.235 +0'loo) log 0.165 = 4.747 - 0.307 H = 4.44 But when NaOH solution is being added to original buffer solution ire, then we have new phas, 14" = pka + log [CH3 wona] net [CH3 won net = 4.747 + log (0.265+ 0.125) = 4.747 + + log 0.39 (0.235 -0.125) - New pH after 0.125 NaoH is addet. - 4.747 + 0.335 0.125M = 5.296