Buffer Action Flashcards
What is a buffer?
A buffer is a solution that resists changes in pH when small amounts of acid or base are added, or when it’s diluted
What are the two types of buffer?
- Acidic buffers
2. Basic buffers
What are acidic buffers?
Acidic buffers have a pH of less than 7 - they’re made by mixing a weak acid with one of its salts
Give an example of an acidic buffer
Ethanoic acid and sodium ethanoate. The ethanoic acid is a weak acid so it only dissociates slightly:
CH3COOH —– H+ + CH3COO-
But the salt fully dissociates into its ions when it dissolves:
CH3COONa + water —– CH3COO- + Na+
So in the solution you have a lot of undissociated ethanoic acid molecules, and lots of ethanoate ions from the salts
What happens when you alter the concentration of H+ ions in the acidic buffer solution of ethanoic acid and sodium ethanoate
CH3COOH —– H+ + CH3COO-
If a small amount of acid is added, the H+ concentration increases. Most of the extra H+ ions combine with the CH3COO- ions to form CH3COOH. This shifts the equilibrium to the left, reducing the H+ concentration close to its original value, so the pH doesn’t change
What happens when you alter the concentration of OH- ions in the acidic buffer solution of ethanoic acid and sodium ethanoate
CH3COOH —– H+ + CH3COO-
If a small amount of base is added, the OH- concentration increases. Most of the OH- ions react with the H+ ions to form water - removing H+ ions from the solution. This causes more CH3COOH to dissociate to form H+ ions - shifting the equilibrium to the right. The H+ concentration increases until it’s close to its original value, so the pH doesn’t change
What are basic buffers?
Basic buffers have a pH greater than 7 - they’re made by mixing a weak base with one of its salts
Give an example of a basic buffer
Ammonia and ammonium chloride. The salt fully dissociates in solution:
NH4Cl —– NH4+ + Cl-
Some of the ammonia molecules will react with the water molecules:
NH3 + water —– NH4+ + OH-
So the solution will contain loads of ammonium ions and lots of ammonia molecules
What happens if you alter the concentration of OH- ions in the basic buffer solution of ammonia and ammonium chloride?
NH3 + H20 —– NH4+ + OH-
If a small amount of base is added, the OH- concentration increases. Most of the extra OH-ions will react with the NH4+ ions, to form NH3 and H2O. So the equilibrium will shift to the left, removing OH- ions from the solution, stopping the pH from changing
What happens if you alter the concentration of H+ ions in the basic buffer solution of ammonia and ammonium chloride?
NH3 + H2O —– NH4+ + OH-
If a small amount of acid is added, the H+ concentration increases. Some of the H+ ions react with the OH- to make H2O. When this happens the equilibrium moves to the right to replace the OH- ions that have been used up. Some of the H+ ions react with NH3 molecules to form NH4+. These reactions remove most of the extra H+ ions so the pH won’t change
Give 3 examples of real life uses of buffers
- Most shampoos contain a pH 5.5 buffer - human hair becomes rougher if it’s exposed to alkaline conditions so the buffer in the shampoo stops this
- Biological washing powers contain buffers - they keep the pH at the right level for the enzymes to work
- There are lots of biological buffers in our bodies to keep our tissues at the right pH - blood contains a buffer solution keeping it at pH 7.4
