Redox Titration -Thiosulfate & Iodine (Edexcel International A Level Chemistry): Revision Note

Analysis of household bleach

Chlorate(I) ions, ClO^-, are the active ingredient in many household bleaches.

10.0 cm³ of bleach was made up to 250.0 cm³. 25.0 cm³ of this solution had 10.0 cm³ of 1.0 mol dm^-3 potassium iodide and then acidified with 1.0 mol dm^-3 hydrochloric acid.

ClO^- (aq) + 2I^- (aq) + 2H⁺ (aq) → Cl^- (aq) + I₂ (aq) + H₂O (l) 

This was titrated with 0.05 mol dm^-3 sodium thiosulfate solution giving an average titre of 25.20 cm³.

2S₂O₃^2- (aq) + I₂ (aq) → 2I^- (aq) + S₄O₆^2- (aq)

What is the concentration of chlorate(I) ions in the bleach?

   Answer:

• One mole of ClO^- (aq) produces one mole of I₂ (aq) which reacts with two moles of 2S₂O₃^2- (aq)

  • Therefore, 1 : 2 ratio of ClO^- (aq) : S₂O₃^2- (aq)

• Number of moles of S₂O₃^2- (aq) 1.26 x 10^-3 moles 

• Number of moles of I₂ (aq) and ClO^- (aq) in 25.0 cm³ 6.30 x 10^-4 moles 

• Number of moles of ClO^- (aq) in 250.0 cm³ = 6.30 x 10^-4 x 10 = 6.30 x 10^-3 moles 

• The 250.0 cm³ was prepared from 10.0 cm³ bleach

  • 10 cm³ bleach = 6.30 x 10^-3 moles of ClO^- ions

  • 1.0 dm³ bleach = 0.630 moles of ClO^- ions

  • Therefore, the concentration of ClO^- ions in the bleach is 0.630 mol dm^-3 

General sequence for redox titration calculations

1. Write down the half equations for the oxidant and reductant

2. Deduce the overall equation

3. Calculate the number of moles of manganate(VII) or dichromate(VI) used

4. Calculate the ratio of moles of oxidant to moles of reductant from the overall redox equation

5. Calculate the number of moles in the sample solution of the reductant

6. Calculate the number of moles in the original solution of reductant

7. Determine either the concentration of the original solution or the percentage of reductant in a known quantity of sample