Compare the reasoning used to deduce [acid] and [conjugate base] for solutions prepared by dissolving only one member of the weak acid-base conjugate pair CH3NH3+/CH3NH2.
In both solutions two equilibrium conditions are satisfied:
Kw = [H3O+][OH]–
In both solutions two equilibrium conditions are satisfied:
| Ka = | = | [CH3NH2][H3O+] | = 2.29 × 10–11 |
| [CH3NH3+] |
| If only the acid of the conjugate pair is dissolved in c(acid), to reach equilibrium: CH3NH3 + +H2O  CH3NH2 + H3O + For a weak acid, extent of reaction is small, THUS [acid] ≈ c(acid) = c(CH3NH3+) (the initial concentration) From the equation for the reaction occurring to reach equilibrium: [ base] = [CH3NH2] = [H3O+] Substitute above to find [H3O+] and then pH. The pH will be less than 7 and less than pKa. |
| If only the base of the pair is dissolved in c(base), to reach equilibrium CH3NH2 + H2O CH3NH3 + +OH–For a weak base extent of reaction is small, THUS [base] ≈ c(base) = c(CH3NH2) (the initial concentration) From the equation for the reaction occurring to reach equilibrium:
Substitute above to find [H3O+] and then pH. The pH will be greater than 7 and greater than pKa. |