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The reason for the stability of the cobalt ( III ) complex as compared to cobalt ( II ) species is to be explained. The reduction potential of the complex ion [ Co ( NH 3 ) 6 ] 2+ and the stronger oxidizing agent among [Co ( NH 3 ) 6 ] 3+ and [ Co ( H 2 O ) 6 ] 3+ are to be determined. Concept Information: Crystal field theory is the theory that explains the bonding of the complex ions. Ligands are the molecules or ions that are bonded with a coordinate covalent bond to a metal ion. The Crystal Field Stabilization energy CFSE is the energy generated by the distribution of the electrons in the d orbitals of a transition metal ion in the crystal field caused by ligands field geometry. The cell potential for the reaction can be determined by the standard free energy: Δ G ° = − n F E ° . The relation between standard free energy and the equilibrium constant for a reaction is also given by: Δ G ° = − R T ln K .

The reason for the stability of the cobalt ( III ) complex as compared to cobalt ( II ) species is to be explained. The reduction potential of the complex ion [ Co ( NH 3 ) 6 ] 2+ and the stronger oxidizing agent among [Co ( NH 3 ) 6 ] 3+ and [ Co ( H 2 O ) 6 ] 3+ are to be determined. Concept Information: Crystal field theory is the theory that explains the bonding of the complex ions. Ligands are the molecules or ions that are bonded with a coordinate covalent bond to a metal ion. The Crystal Field Stabilization energy CFSE is the energy generated by the distribution of the electrons in the d orbitals of a transition metal ion in the crystal field caused by ligands field geometry. The cell potential for the reaction can be determined by the standard free energy: Δ G ° = − n F E ° . The relation between standard free energy and the equilibrium constant for a reaction is also given by: Δ G ° = − R T ln K .

Solution Summary: The author explains the reason for the stability of the complex ion cobalt( II) complex as compared to the species. The Crystal Field Stabilization

CHEMISTRY:MOLECULAR NATURE (LL)W/ACCESS

CHEMISTRY:MOLECULAR NATURE (LL)W/ACCESS

7th Edition

ISBN: 9781119497325

Author: JESPERSEN

Publisher: WILEY

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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 99RQ

Interpretation Introduction

Interpretation:

The reason for the stability of the cobalt(III) complex as compared to cobalt(II) species is to be explained. The reduction potential of the complex ion [Co(NH3)6]2+ and the stronger oxidizing agent among [Co(NH3)6]3+ and [Co(H2O)6]3+ are to be determined.

Concept Information:

Crystal field theory is the theory that explains the bonding of the complex ions.

Ligands are the molecules or ions that are bonded with a coordinate covalent bond to a metal ion.

The Crystal Field Stabilization energy CFSE is the energy generated by the distribution of the electrons in the d orbitals of a transition metal ion in the crystal field caused by ligands field geometry.

The cell potential for the reaction can be determined by the standard free energy:

ΔG°=−nFE°.

The relation between standard free energy and the equilibrium constant for a reaction is also given by:

ΔG°=−RTlnK.

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Chapter 21, Problem 98RQ

Chapter 21, Problem 100RQ

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Chapter 21 Solutions

CHEMISTRY:MOLECULAR NATURE (LL)W/ACCESS

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