2. Explain why each of the following does not result in an effective buffer? (15pts)
1.24mol NH4NO3(aq) + 0.03mol NH3(aq)
0.38mol HI(aq) + 0.38mol NaI(aq)
1.28mol Na2CO3(aq) + 0.64mol NaOH(aq)
What makes an effective buffer solution? 1) an approximately equimolar combination of a weak conjugate acid and its weak conjugate base; 2) at concentrations at least 100x the Ka of the weak conjugate acid.
The first combination listed above is indeed a combination of a weak conjugate acid (NH4+) and its weak conjugate base (NH3), but their concentrations are not approximately equimolar. If the concentration of conjugate acid and conjugate base are not within a factor of ~10, the buffer will not be able to effectively control pH. This could be an effective buffer if an extra mol of NH3 was added.
The second combination is equimolar, but HI(aq) is a strong acid, therefore it would not make an effective buffer. This could be an effective buffer if HF and NaF were used instead of HI and NaI.
The third combination is a mixture of a weak base with a strong base, and the resulting solution does not contain an equilmolar combination of a weak conjugate acid and its weak conjugate base, so it is not an effective buffer. This could be an effective buffer if 0.64mols of HCl(aq) was added instead of 0.64mol NaOH(aq), because the resulting solution would contain 0.64mols of HCO3-(aq) {a weak conjugate acid} and 0.64mols of CO32-(aq) {its weak conjugate base}.
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