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The bond order and the magnetic properties of N 2 2 + ion are to be determined. Concept introduction: The combination of two atomic orbitals leads to the formation of a bonding and an antibonding molecular orbital. Orbitals that lie on internuclear axis combine to form sigma, σ , molecular orbital, and orbitals parallel to each other combine to form π molecular orbitals. The molecular orbital formed by the combination of 1s orbital forms bonding molecular orbital designated as σ 1 s and antibonding molecular orbital as σ ∗ 1 s . The 2s orbital forms corresponding molecular orbitals. Bond order is determined by subtracting the number of antibonding electrons from the number of bonding electrons and dividing the obtained number by two. Bond order = ( N b − N a ) / 2 , where N b is the number of bonding electrons and N a is the number of antibonding electrons.

The bond order and the magnetic properties of N 2 2 + ion are to be determined. Concept introduction: The combination of two atomic orbitals leads to the formation of a bonding and an antibonding molecular orbital. Orbitals that lie on internuclear axis combine to form sigma, σ , molecular orbital, and orbitals parallel to each other combine to form π molecular orbitals. The molecular orbital formed by the combination of 1s orbital forms bonding molecular orbital designated as σ 1 s and antibonding molecular orbital as σ ∗ 1 s . The 2s orbital forms corresponding molecular orbitals. Bond order is determined by subtracting the number of antibonding electrons from the number of bonding electrons and dividing the obtained number by two. Bond order = ( N b − N a ) / 2 , where N b is the number of bonding electrons and N a is the number of antibonding electrons.

Solution Summary: The author explains the bond order and the magnetic properties of N_ 2+ ion.

Chemistry

4th Edition

ISBN: 9780078021527

Author: Julia Burdge

Publisher: McGraw-Hill Education

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Chapter 9.6, Problem 1CP

Interpretation Introduction

Interpretation: The bond order and the magnetic properties of N22+ ion are to be determined.

Concept introduction:

The combination of two atomic orbitals leads to the formation of a bonding and an antibonding molecular orbital. Orbitals that lie on internuclear axis combine to form sigma, σ, molecular orbital, and orbitals parallel to each other combine to form π

molecular orbitals.

The molecular orbital formed by the combination of 1s orbital forms bonding molecular orbital designated as σ1s and antibonding molecular orbital as σ∗1s. The 2s orbital forms corresponding molecular orbitals.

Bond order is determined by subtracting the number of antibonding electrons from the number of bonding electrons and dividing the obtained number by two.

Bond order =(Nb−Na)/2, where Nb is the number of bonding electrons and Na is the number of antibonding electrons.

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Chapter 9.6, Problem 1PPC

Chapter 9.6, Problem 2CP

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