The octahedral complex ion [MNCI]³¯ has more unpairedspins than the octahedral complex ion [Mn(CN),]³-. Howmany unpaired electrons are present in each species?Explain. In each case, express the CFSE in terms of A.

Answered: The octahedral complex ion [MNCI]³¯ has…

Principles of Modern Chemistry

8th Edition

ISBN:9781305079113

Author:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler

Publisher:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler

Chapter8: Bonding In Transition Metal Compounds And Coordination Complexes

Section: Chapter Questions

Problem 31P

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Question

The octahedral complex ion [MNCI]³¯ has more unpaired
spins than the octahedral complex ion [Mn(CN),]³-. How
many unpaired electrons are present in each species?
Explain. In each case, express the CFSE in terms of A.

Expert Solution

Step 1

In case of CFT, concept of strong ligand and weak ligand arises in case of pairing energy and splitting of orbital. Strong ligand have low pairing energy and high splitting energy. So, they prefer to pair electrons in t₂_gorbital rather to excite them. And they have very less unpaired electrons (low-spin complexes).

Weak ligand have low splitting energy and high pairing energy. So. they try to fill e_g orbital after half filling of t_2g orbital. And they have more numbers of unpaired electrons (high-spin complex).

Step 2

[Mn(Cl)₆]^3-has more unpaired electrons because Cl^- is a weak ligand and it does not prefer pairing of unpaired electrons. So, it forms an outer orbital complex and hybridization will be sp³d².

Its oxidation state will be:

$\begin{array}{rcl} x + (- 6) & = & - 3 \\ x & = & + 3 \end{array}$