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Chapter 5 Molecular Orbital Theory

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Presentation on theme: "Chapter 5 Molecular Orbital Theory"— Presentation transcript:

1 Chapter 5 Molecular Orbital Theory

2 Interactions of two s orbitals: H2
Look at combinations of 1s wavefunctions:

3 Interactions of two s orbitals: H2

4 Interactions of two p orbitals

5 Interactions of two p orbitals

6 Interactions of two p orbitals

7 Interactions of two p orbitals: MO Diagram

8 Interactions of two d orbitals

9 Interactions of two d orbitals

10 Homonuclear Diatomics

11

12 Orbital Mixing Orbitals of same symmetry interact. lower E orbital decreases in E. higher e orbital increases in E.

13

14 Evidence?

15 Evidence: Photoelectron Spectroscopy

16 What about different atoms? How do you know relative atomic orbital energies?

17 More complicated: Using symmetry and LCAO’s H2O Look at what happens to H 1s orbitals

18

19 More complicated: Using symmetry and LCAO’s H2O Look at what happens to H 1s orbitals

20 More complicated: Using symmetry and LCAO’s H2O

21 More complicated: Using symmetry and LCAO’s H2O

22 In general: Use Symmetry Adapted Linear Combinations of Atomic Orbitals (SALCs)
for terminal atoms and combine with atomic orbitals (AOs) of central atom. Examples of sigma-only bonding SALCs: (see file SigmaMOdiagramsforTMs; see SALC_O For SALCs for sigma and pi bonding. Td C3v

23 CH4 Hybrid Orbitals: Predict Orbital Energies

24 CH4 MOs: SALC’s for H’s in Td point group
CH4 MOs: SALC’s for H’s in Td point group. Then relate those to C’s orbitals to predict MOs.

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