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Science Chemistry Chemistry, Loose-leaf Edition (8th Edition)

The more paramagnetic complex from [ FeCl 6 ] 3 − and [ Fe ( CN ) 6 ] 3 − needs to be determined. Concept introduction: The crystal field theory explained that the splitting of orbital degeneracy in the complex takes place due to the presence of strong field ligand. The splitting of orbital degeneracy will be different in a different structure of the complex with different coordination numbers. The expression to calculate the magnetic moments is shown below: μ = n ( n+2 )

The more paramagnetic complex from [ FeCl 6 ] 3 − and [ Fe ( CN ) 6 ] 3 − needs to be determined. Concept introduction: The crystal field theory explained that the splitting of orbital degeneracy in the complex takes place due to the presence of strong field ligand. The splitting of orbital degeneracy will be different in a different structure of the complex with different coordination numbers. The expression to calculate the magnetic moments is shown below: μ = n ( n+2 )

Solution Summary: The author explains that the splitting of orbital degeneracy in the complex takes place due to the presence of strong field ligand.

Chemistry, Loose-leaf Edition (8th Edition)

Chemistry, Loose-leaf Edition (8th Edition)

8th Edition

ISBN: 9780135210123

Author: Jill Kirsten Robinson, John E. McMurry, Robert C. Fay

Publisher: PEARSON

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Concept explainers

Coordination Chemistry

It is a part of chemistry, in which the study of compounds that have central atoms surrounded by molecules or ions, known as ligand, is known as coordination chemistry.

Question

Chapter 21, Problem 21.16A

Interpretation Introduction

Interpretation:

The more paramagnetic complex from [FeCl6]3− and [Fe(CN)6]3− needs to be determined.

Concept introduction:

The crystal field theory explained that the splitting of orbital degeneracy in the complex takes place due to the presence of strong field ligand. The splitting of orbital degeneracy will be different in a different structure of the complex with different coordination numbers.

The expression to calculate the magnetic moments is shown below:

μ=n(n+2)

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Chapter 21, Problem 21.15P

Chapter 21, Problem 21.17P

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Chapter 21 Solutions

Chemistry, Loose-leaf Edition (8th Edition)

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