Question:

Pick out the correct statement with respect to $[Mn(CN)_6]^{3-}$ :

Updated On: Apr 18, 2024

It is $sp^3d^2$ hybridised and tetrahedral
It is $d^2sp^3$ hybridised and octahedral
It is $dsp^2$ hybridised and square planar
It is $sp^3d^2$ hybridised and octahedral

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The Correct Option is B

Solution and Explanation

$\left[ Mn ( CN )_{6}\right]^{3-}$ $Mn ( III )=[ Ar ] 3 d^{4}$ $CN ^{-}$ being strong field ligand forces pairing of electrons This gives $t_{2 g}^{4} e_{g}^{0}$ $\therefore Mn ( III )=[ Ar ]$

$\because$ Coordination number of $Mn =6$ $\therefore$ Structure $=$ octahedral $\left[ Mn ( CN )_{6}\right]^{3-}=$

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Concepts Used:

Coordination Compounds

A coordination compound holds a central metal atom or ion surrounded by various oppositely charged ions or neutral molecules. These molecules or ions are re-bonded to the metal atom or ion by a coordinate bond.

Coordination entity:

A coordination entity composes of a central metal atom or ion bonded to a fixed number of ions or molecules.

Ligands:

A molecule, ion, or group which is bonded to the metal atom or ion in a complex or coordination compound by a coordinate bond is commonly called a ligand. It may be either neutral, positively, or negatively charged.