Construct an approximate molecular orbital energy diagram for a hypothetical planar form of NH3. From a consideration of the atomic energy levels, place the N and H3 orbitals on either side of a molecular orbital energy-level diagram. Then use your judgement about the effect of bonding and anti bonding interactions and energies of the parent orbitals to construct the molecular orbital energy levels in the centre of your diagram and draw lines indicating the contributions of the atomic orbitals to each molecular orbital. Ionization energies are I(H1s) = 13.6 eV, I(N2s) = 26.0 eV, and I(N2p)=13.4 eV.
Construct an approximate molecular orbital energy diagram for a hypothetical planar form of NH3. From a consideration of the atomic energy levels, place the N and H3 orbitals on either side of a molecular orbital energy-level diagram. Then use your judgement about the effect of bonding and anti bonding interactions and energies of the parent orbitals to construct the molecular orbital energy levels in the centre of your diagram and draw lines indicating the contributions of the atomic orbitals to each molecular orbital. Ionization energies are I(H1s) = 13.6 eV, I(N2s) = 26.0 eV, and I(N2p)=13.4 eV.
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Construct an approximate molecular orbital energy diagram for a hypothetical planar form of NH3.
From a consideration of the atomic energy levels, place the N and H3 orbitals on either side of a molecular orbital energy-level diagram. Then use your judgement about the effect of bonding and anti bonding interactions and energies of the parent orbitals to construct the molecular orbital energy levels in the centre of your diagram and draw lines indicating the contributions of the atomic orbitals to each molecular orbital. Ionization energies are I(H1s) = 13.6 eV, I(N2s) = 26.0 eV, and I(N2p)=13.4 eV.
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