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Question 8.9: What is the pH of a buffer solution containing equimolar qua...

What is the pH of a buffer solution containing equimolar quantities of:
(a) H_{3}PO_{4} and NaH_{2}PO_{4}?           (b) H_{2}CO_{3}  and  NaHCO_{3}?

 

Strategy
When there are equimolar quantities of a weak acid and its conjugate base in a buffer solution, the pH is always the same as the pK_{a} of the weak acid. Look up the pK_{a} of the weak acid in Table 8.3.

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Because we are adding equimolar quantities of a weak acid and its conjugate base, the pH is equal to the pK_{a} of the weak acid, which we find in Table 8.3:
(a) pH =2.12                                        (b) pH = 6.37

Formula Name K_{a} pK_{a}  
H_{3}PO_{4} Phosphoric acid 7.5×  10^{-3} 2.12
HCOOH Formic acid 1.8 × 10^{-4} 3.75
CH_{3}CH(OH)COOH Lactic acid 1.4 × 10^{-4} 3.86
CH_{3}COOH Acetic acid 1.8 × 10^{-5} 4.75
H_{2}CO_{3} Carbonic acid 4.3×    10^{-7} 6.37
H_{2}PO_{4}^{-} Dihydrogen phosphate ion 6.2 ×   10^{-8} 7.21
H_{3}BO_{3} Boric acid 7.3 ×  10^{-10} 9.14
NH_{4}^{+} Ammonium ion 5.6 ×  10^{-10} 9.25
HCN Hydrocyanic acid 4.9  × 10^{-10} 9.31
C_{6}H_{5}OH Phenol 1.3  × 10^{-10} 9.89
HCO_{3}^{-} Bicarbonate ion 5.6 × 10^{-11} 10.25
HPO_{4}^{2-} Hydrogen phosphate ion 2.2 × 10^{-13} 12.66

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