The  following procedure was used to determine the percentage of copper in a coin.

Step 1. A coin with a mass of 3.03 g was completely dissolved in excess concentrated nitric acid, HNO₃(aq). After the excess nitric acid had been neutralised and the oxides of nitrogen removed all the solution of copper(II) nitrate obtained was transferred into a volumetric flask and the total volume made up to 100 cm³ with distilled water.

Step 2. 10.0 cm³ of this diluted copper(II) nitrate solution was pipetted into a conical flask and excess potassium iodide solution was added.  The following reaction occurred:

                                      2Cu²⁺(aq)  +  4I⁻(aq)  → 2CuI(s)  +  I₂(aq)

Step 3. The mixture was then titrated with 2.00 x 10⁻¹ mol dm⁻³ sodium thiosulfate solution, Na₂S₂O₃(aq).  21.4 cm³ of this thiosulfate solution were required to react with all the iodine produced in the preceding reaction.

The reaction between iodine and thiosulfate ions is:

                                    I₂(aq)  +  2S₂O₃²⁻ (aq)  →  S₄O₆²⁻ (aq)  +  2I⁻(aq)

Some domestic heating fuel contains sulfur.

To determine the sulfur content of a domestic fuel, a 10.0 g sample of the fuel was burnt completely in oxygen. The products of the combustion, which consisted solely of carbon dioxide, CO₂(g), sulfur dioxide, SO₂(g), and water vapour, H₂O(g), were bubbled through water.

It can be assumed that all the sulfur dioxide produced dissolved completely in the water whereas that the amount of carbon dioxide that dissolved was negligible.

The solution formed was titrated with an acidified solution of 2.50 x 10⁻² mol dm⁻³ potassium manganate(VII), KMnO₄(aq). The titration was complete after 12.0 cm³ of the potassium permanganate solution had been added.