To determine the presence of anion and cation in the given salt
| Experiment | Observation | Inference |
|---|---|---|
| Salt + Dilute HCl | Colorless, odorless gas evolves with brisk effervescence | CO₃²⁻ may be present |
| Confirmatory Tests | ||
| Lime Water Test Pass the evolved gas through lime water | Lime water turns milky | Presence of CO₃²⁻ is confirmed |
| Magnesium Sulphate Test Salt solution + MgSO₄ solution | White ppt is obtained | Presence of CO₃²⁻ is confirmed |
| Experiment | Observation | Inference |
|---|---|---|
| Salt + NaOH solution | No reaction | Zero group cation is absent |
| Original salt + Dil. HCl | No reaction | First group cation is absent |
| Original salt + Dil. HCl + H₂S gas (Na₂S chips) | No reaction | Second group cation is absent |
| Original salt + Dil. HCl + NH₄Cl solid + NH₄OH solution | No reaction | Third group cation is absent |
| Original solution + Dil. HCl + NH₄Cl + NH₄OH + (NH₄)₂CO₃ | White ppt is formed | Ba²⁺ may be present |
| Confirmatory Tests | ||
| Dissolve the white ppt in dil. acetic acid and add potassium chromate | No reaction | Ba²⁺ absent |
| Dissolve the white ppt in dil. acetic acid and add (NH₄)₂SO₄ | White ppt | Sr²⁺ confirmed |
The given salt contains Sr²⁺ ions as cation and CO₃²⁻ ions as anion. The salt is Sr²⁺CO₃²⁻.