To determine the presence of anion and cation in the given salt
| Experiment | Observation | Inference |
|---|---|---|
| Take 0.1 g of salt in a test tube and add conc. H₂SO₄ (or add MnO₂ if needed) and warm | Reddish brown fumes of bromine are evolved | Br⁻ may be present |
| Confirmatory Tests | ||
| Layer Test Take 1 mL of neutralized extract, add CCl₄/CHCl₃ (or other suitable organic solvent), then add chlorine water dropwise and shake vigorously | Orange-brown colouration appears in the organic layer | Br⁻ is confirmed |
| Silver Nitrate Test Acidify sodium carbonate extract with dilute HNO₃ (or use water extract) and add AgNO₃ | Pale yellow precipitate | Br⁻ is confirmed |
| Experiment | Observation | Inference |
|---|---|---|
| Original solution + Dilute HCl | No reaction | Group I cation is absent |
| Original solution + Dilute HCl + H₂S gas (with NH₄Cl) | No reaction | Group II cation is absent |
| Original solution + Dilute HCl + NH₄Cl solid + NH₄OH | No reaction | Group III cation is absent |
| Original solution + NH₄Cl + NH₄OH + (NH₄)₂CO₃ | White precipitate is formed | Group V cation may be present |
| Confirmatory Test | ||
| Ammonium Oxalate Test Dissolve white precipitate in dilute acetic acid and add ammonium oxalate solution | White precipitate | Ca²⁺ is confirmed |
The given salt contains Ca²⁺ ions as cation and Br⁻ ions as anion. The salt is Ca(Br)₂.