A reagent which gives brilliant red precipitate with Nickel ions in basic medium is
- sodium nitroprusside
- neutral FeCl$_3$
- meta-dinitrobenzene
- dimethyl glyoxime
The Correct Option is D
Approach Solution - 1
To determine which reagent gives a brilliant red precipitate with Nickel ions in a basic medium, let's analyze each option:
- Sodium nitroprusside: This reagent is commonly used as a detection test for sulfide ions. It does not react with Nickel ions to give a red precipitate, especially not in a basic medium.
- Neutral FeCl3: Ferric chloride is generally used as a reagent to test for phenols and is not known to react with nickel to form a brilliant red precipitate.
- Meta-dinitrobenzene: This is an organic compound which does not participate in reactions with Nickel ions to give a color precipitate in any medium.
- Dimethyl glyoxime: This reagent is known to form a complex with Nickel ions that produces a distinctive red precipitate. The reaction is as follows:
When dimethyl glyoxime is added to a solution containing Nickel ions (\(Ni^{2+}\)) in a basic medium (usually achieved by adding ammonia or another base), a red precipitate of nickel(II) dimethylglyoxime complex is formed:
\(Ni^{2+} + 2(C_4H_8N_2O_2) + 2OH^- \rightarrow Ni(C_4H_7N_2O_2)_2 \, (red \, precipitate) + 2H_2O\)
Thus, the correct answer is dimethyl glyoxime because it forms a red precipitate with Nickel ions in a basic medium.
In conclusion, the reagent that gives a brilliant red precipitate with Nickel ions in a basic medium is dimethyl glyoxime.
Approach Solution -2
The reagent that gives a brilliant red precipitate with Nickel ions (\( \text{Ni}^{2+} \)) in a basic medium is dimethyl glyoxime (dmg). When \( \text{Ni}^{2+} \) reacts with dimethyl glyoxime, it forms a complex that produces a bright red precipitate. The reaction is as follows:
\(\text{Ni}^{2+} + \text{dmg} \rightarrow [\text{Ni}(\text{dmg})_2] \, \, (\text{Rosy red/Bright Red precipitate})\)
Thus, the correct answer is dimethyl glyoxime.
The Correct Answer is: dimethyl glyoxime
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