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In qualitative inorganic analysis, the separation of metal ions into different groups is based on the differences in reactivity and the conditions under which precipitation occurs. The purpose of this separation is to identify and isolate specific groups of ions for further analysis.

In the analysis scheme involving groups in qualitative inorganic analysis, the first group typically consists of cations that form insoluble chlorides. These cations include silver (Ag+), lead (Pb2+), and mercury (Hg2+). The addition of chloride ions (usually from hydrochloric acid) to the solution containing these cations leads to the formation of precipitates: silver chloride (AgCl), lead chloride (PbCl2), and mercury(I) chloride (Hg2Cl2).

The second group, on the other hand, involves cations that form sulfide precipitates. This group includes ions such as copper (Cu2+), bismuth (Bi3+), antimony (Sb3+), and tin (Sn2+). When hydrogen sulfide (H2S) gas or a soluble sulfide source is added to the solution containing these cations at a slightly acidic pH, sulfide ions (S2-) react with these cations to form insoluble sulfide precipitates.

The reason why the cations from the second group (Sn2+ and Sb3+) and the fourth group (Zn2+ and Mn2+) do not precipitate along with the first group in the presence of chloride ions is due to differences in their reactivity and solubility. While all these cations can form chlorides, the solubility products of their chlorides differ.

The solubility product is a measure of the extent to which a compound can dissolve in a given solvent. In the case of the first group cations, such as Ag+ and Pb2+, their chlorides have relatively low solubility products, leading to the formation of insoluble chlorides and precipitation. However, the chlorides of Sn2+, Sb3+, Zn2+, and Mn2+ have higher solubility products, meaning they remain dissolved in the solution and do not precipitate in the presence of chloride ions.

Therefore, by utilizing specific reagents and pH conditions for each group, it is possible to selectively precipitate and separate different groups of metal ions in qualitative inorganic analysis, based on their unique properties and behavior.

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