4.2.2 Identifying Anions & Cations | AQA A Level Chemistry Revision Notes 2017 (2024)

Identifying Anions & Cations

Simple test tube reactions can be done to identify the following ions:
- Group 2 ions (M²⁺)
- Ammonium ions (NH₄⁺)
- Halide ions (X^-)
- Hydroxide ions (OH^-)
- Carbonate ions (CO₃^2-)
- Sulfate ions (SO₄^2-)
If the sample to be tested is a solid, then it must be dissolved in deionised water and made into an aqueous solution

Four test tubes should be placed in a test tube rack
Around 10 drops of 0.1 mol dm^-3 barium chloride solution should be added to the first test tube
Around 10 drops of dilute sodium hydroxide solution (NaOH) should be added to the same test tube
Swirl the test tube carefully to mix well
Continue to add sodium hydroxide dropwise to the test tube, until it is in excess
This should then be repeated in the other test tubes, for calcium bromide solution, magnesium chloride solution and strontium chloride solution
Any observations should be noted down in a suitable results table
The same test as above can also be done using ammonia solution and sulfuric acid solution

The positive results testing for the presence of Group 2 ions

About 10 drops of a solution containing ammonium ions, such as ammonium chloride, should be added to a clean test tube
About 10 drops of sodium hydroxide should be added using a pipette
The test tube should be swirled carefully to ensure that it is mixed well
The test tube of the solution should then be placed in a beaker of water, and the beaker of water should be placed above a Bunsen burner, so that it can become a water bath
As the solution is heated gently, fumes will be produced
A pair of tongs should be used to hold a damp piece of red litmus paper near the mouth of the test tube, to test the fumes
The red litmus paper will change colour and become blue in the presence of ammonia gas

Damp red litmus paper turning blue in the presence of ammonia gas

The sample being tested should be added using a pipette to a test tube
The test tube should be placed into a test tube rack
A small amount of nitric acid should be added to the sample using a pipette, followed by a small amount of silver nitrate solution
A precipitate will form, either white, cream or yellow, if a halide ion is present in the sample

The white, cream and yellow precipitates formed when halide ions react with silver nitrate solution

The white precipitate will form if chloride ions are present in the sample
- The white precipitate is AgCl
The cream precipitate will form if bromide ions are present in the sample
- The cream precipitate is AgBr
The yellow precipitate will form if iodide ions are present in the sample
- The yellow precipitate is AgI

Results of the test with ammonia to further distinguish between silver halide precipitates

A small amount (around 1 cm³) of the solution should be added to a test tube using a pipette
Test the pH of the solution using red litmus paper or universal indicator paper
- The presence of hydroxide ions will turn the red litmus paper blue and the pH will be clearly alkaline on the universal indicator paper if hydroxide ions are present

A small amount (around 1 cm³) of dilute hydrochloric acid should be added to a test tube using a pipette
An equal amount of sodium carbonate solution should then be added to the test tube using a clean pipette
As soon as the sodium carbonate solution is added, a bung with a delivery tube should be attached to the test tube
- The delivery tube should transfer the gas which is formed into a different test tube which contains a small amount of limewater (calcium hydroxide solution)
Carbonate ions will react with hydrogen ions from the acid to produce carbon dioxide gas
Carbon dioxide gas will turn the limewater milky

When carbon dioxide gas is bubbled into limewater it will turn cloudy as calcium carbonate is produced

Acidify the sample with dilute hydrochloric acid and then add a few drops of aqueous barium chloride
If a sulfate is present then awhite precipitate of barium sulfate is formed:

Ba²⁺(aq) + SO₄^2-(aq) → BaSO₄(s)

A white precipitate of barium sulfate is a positive result for the presence of sulfate ions