Final answer:
Dissolved sodium fluoride reduces the percent dissociation of hydrofluoric acid, increases the pH of the solution, and drives the reaction towards the HF side to reach equilibrium.
Step-by-step explanation:
The effect of dissolved sodium fluoride on the dissociation equilibrium of hydrofluoric acid
When sodium fluoride (NaF) is dissolved in hydrofluoric acid (HF), it affects the dissociation equilibrium in the following ways:
- The percent dissociation of HF is reduced by the presence of dissolved NaF. This means that less HF molecules will break apart into ions, resulting in fewer hydronium ions (H+) and fluoride ions (F-) in the solution.
- The pH of the solution containing NaF and HF would be higher than that of a solution of HF only. The hydroxide ion produced when F- accepts a proton makes the solution slightly basic.
- The presence of NaF drives the reaction towards the HF side to reach equilibrium. This is because the addition of F- shifts the equilibrium of HF dissociation to the left, reducing the concentration of H+ and F- ions.
Therefore, the correct options are: The percent dissociation of HF is reduced by the presence of dissolved NaF, The pH of the solution containing NaF and HF would be higher than that of a solution of HF only, and The presence of NaF drives the reaction towards the HF side to reach equilibrium.