Question:medium

Identify the homoleptic complex(es) that is/are low spin.
[(A)] \([\text{Fe(CN)}_5\text{NO}]^{2-}\)
[(B)] \([\text{CoF}_6]^{3-}\)
[(C)] \([\text{Fe(CN)}_6]^{4-}\)
[(D)] \([\text{Co(NH}_3)_6]^{3+}\)
[(E)] \([\text{Cr(H}_2\text{O)}_6]^{2+}\)
Choose the correct answer from the options given below:

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For complexes with transition metals, the crystal field splitting is influenced by both the oxidation state and the nature of the ligand. Strong field ligands (like \( \text{CN}^- \)) cause low-spin complexes, while weak field ligands (like \( \text{F}^- \) and \( \text{H}_2\text{O} \)) tend to lead to high-spin complexes.
Updated On: Apr 19, 2026
  • C and D only
  • B and E only
  • A and C only
  • C only
Show Solution

The Correct Option is C

Solution and Explanation

Typically, transition metals in higher oxidation states and/or ligands inducing strong crystal field splitting (e.g., \( \text{CN}^- \)) yield low-spin complexes.

Consequently: - \( [\text{Fe(CN)}_5\text{NO}]^{2-} \) and \( [\text{Fe(CN)}_6]^{4-} \) are classified as low-spin due to the strong field nature of \( \text{CN}^- \).

- \( [\text{CoF}_6]^{3-} \) and \( [\text{Cr(H}_2\text{O})_6]^{2+} \) are categorized as high-spin because they involve weaker ligands or lower oxidation states. 

Therefore, \( \text{Fe(CN)}_5\text{NO}^{2-} \) and \( \text{Fe(CN)}_6^{4-} \) are identified as low-spin complexes.

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