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Molecular Orbitals An overview. MO Theory Robert Mullikan won the Nobel Prize in 1966 for developing this theory. This theory describes the electrons.

Published bySpencer Arnold Modified over 9 years ago

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Presentation on theme: "Molecular Orbitals An overview. MO Theory Robert Mullikan won the Nobel Prize in 1966 for developing this theory. This theory describes the electrons."— Presentation transcript:

1 Molecular Orbitals An overview

2 MO Theory Robert Mullikan won the Nobel Prize in 1966 for developing this theory. This theory describes the electrons in orbitals belonging to the entire molecule.

3 Molecular Orbitals A molecular orbital (MO) can hold a maximum of two electrons. A MO has a definite energy. We can represent an MO with an electron- density cloud.

4 LCAO Linear Combination of Atomic Orbitals Whenever two atomic orbitals overlap, two molecular orbitals form. # in = # out Energy is conserved, so… One orbital will be lower in energy One orbital will be higher in energy

5 The Hydrogen Molecule

6 The Two Orbitals  * Antibonding orbital Very little electron density between the nuclei Higher in energy Destabilizes bond formation  Bonding orbital Promotes bond formation Electron density is between the nuclei Lower in energy

7 Bonding and Antibonding Orbitals

8 MO Diagrams

9 H 2 and He 2

10 Complex MO Diagrams

11 Bond Order In MO theory, bond stability of a covalent bond is related to its bond order. Bond order = ½(# bonding electrons - # antibonding electrons) Bond order can be an integer or a fraction Bond Order # of bonds 0No bond exists 1Single bond 2Double bond 3Triple bond

12 Calculate Bond Order for He 2 +

13 Compare bond orders Which would be more stable: He 2 or He 2 + ? Justify your answer.

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