1: Models of Chemical Bonding

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1.1: Atomic and Molecular Properties
The atomic and molecular properties are the intrinsic features associated with the system at the atomic and sub-atomic level.
1.2: Intermolecular Forces - Introduction and London Dispersion
1.3: Overview of Valence Bond Theory
Valence Bond (VB) Theory looks at the interaction between atoms to explain chemical bonds. It is one of the two common theories that helps describe the bonding between atoms. The other theories is the Molecular Orbital Theory. Take note that these are theories and should be treated as such; they are not always perfect.
1.4: Molecular orbital theory- conjugation and aromaticity
Valence bond theory does a remarkably good job at explaining the bonding geometry of many of the functional groups in organic compounds. There are some areas, however, where the valence bond theory falls short. It fails to adequately account, for example, for some interesting properties of compounds that contain alternating double and single bonds. In order to understand these properties, we need to think about chemical bonding in a new way, using the ideas of molecular orbital (MO) theory.
1.5: Comparison of the Resonance and Molecular-Orbital Methods
In this section, we will sketch the similarities and differences in the resonance (or valence-bond, VB) and molecular-orbital (MO) approaches for electron-pair bonds. Both methods normally start with atomic orbitals, but where the methods differ is in how these orbitals are used.
- 1.5.1: Which Is Better- MO or VB?

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