Mod 6 Indicators question (1 Viewer)

NexusRich

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Why are indicators often weak acids ? also why do indicators change colour when in contact with acids or bases ?
 

Sp3ctre

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Weak acids are usually used as indicators because they will partly dissociate when dissolved in an acid or base. This is the dissociation equation for HIn which is a commonly used indicator.
HIn + H2O <=> H3O+ + In-
If you dissolve this in an acid for example, according to Le Chatelier's principle the increase in H3O+ ions will cause equilibrium to shift to the left, thus producing more HIn. HIn is more red in colour so that's why the solution will change to a more reddish colour too.
 

CM_Tutor

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Acid / base indicators need to be weak acids or bases because they need to undergo a reaction just after the equivalence point. For an indicator to be appropriate, you need the pH at the equivalence point (which is determined by the nature of the salt formed) to be near the pKa of the indicator.

For example, with acetic acid / sodium hydroxide, the salt (sodium acetate) is a weak base. The pH of the equivalence point is around 9, making phenolphthalein (pKa = 9.4) to be an appropriate indicator.

If I represent phenolphthalein as HInd (in its acidic form) and am adding NaOH from the burette, then the colour change is due to

HInd + OH- <---> Ind- + H2O

where HInd = colourless but Ind- = pink

You will get some pink colour before the end point as added hydroxide can react with the indicator or with acetic acid, depending on which is encountered first. However, any phenolphthalein converted to its conjugate base form will be rapidly converted back to its acidic form by acetic acid:

CH3COOH + Ind- <-----> CH3CO2- + HInd

This equilibrium lies far to the right as the acetic acid (pKa = 4.76) is a much stronger acid than is phenolphthalein (pKa = 9.4) even though both are weak.

So, it is only once all the acetic acid is consumed (at the equivalence point) for the addition of a tiny amount more hydroxide to permanently shift the equilibrium between HInd and Ind- to favour the coloured conjugate base form and thus for the end point to be found.
 

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