Proton Transfer, Strong & Weak Acids (Cambridge (CIE) IGCSE Chemistry)

Revision Note

Written by: Caroline Carroll

Reviewed by: Stewart Hird

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Acids are proton donors as they ionise in solution producing protons, which are H⁺ ions
These H⁺ ions make the aqueous solution acidic
Bases are proton acceptors as they accept the protons which are donated by the acid

Diagram showing the role of acids and bases in the transfer of protons - here water acts as a base as it accepts a proton

Acids can be either strong or weak, depending on how many H⁺ ions they produce when dissolved in water
Strong acids completely dissociate (or ionise) in water, producing solutions of a very low pH
Strong acids include HCl and H₂SO₄
Example of a strong acid: hydrochloric acid

HCl (aq) → H⁺ (aq) + Cl^- (aq)

Weak acids partially dissociate (or ionise) in water and produce pH values which are closer to the middle of the pH scale, whilst still being below 7
For weak acids, there is usually an equilibrium set-up between the molecules and their ions once they have been added to water
Example of a weak acid: propanoic acid

CH₃CH₂COOH ⇌ H⁺ + CH₃CH₂COO^-

The equilibrium lies to the left, indicating a high concentration of intact acid molecules, with a low concentration of H⁺ ions in the solution
Another example of a weak acid is ethanoic acid which will react with alkalis such as sodium hydroxide to form ethanoate salts

ethanoic acid + sodium hydroxide → sodium ethanoate + water

CH₃COOH + NaOH → CH₃COONa + H₂O

A concentrated solution of an acid is one that contains a higher number of acid molecules per dm³ of solution
It does not necessarily mean that the acid is strong though, as it may be made from a weak acid which does not dissociate completely
For example a dilute solution of HCl will be more acidic than a concentrated solution of ethanoic acid, since most of the HCl molecules dissociate but very few of the CH₃COOH do

Last updated: 24 September 2024

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