What is the Difference Between Molecular Orbital Theory and Valence Bond Theory?
🆚 Go to Comparative Table 🆚The main differences between Molecular Orbital Theory (MOT) and Valence Bond Theory (VBT) are:
- Focus: VBT considers a molecule as a collection of bonds, whereas MOT views the molecule as a whole.
- Electron Distribution: VBT assumes that electrons in a molecule are simply the electrons in the original atomic orbitals, with some used while bonding. It does not account for the true distribution of electrons within molecules, but instead treats electrons as if they are "localized" on the atoms themselves. On the other hand, MOT accounts for the "delocalization" of electrons and describes the electron distribution based on the molecular orbitals formed by the combination of atomic orbitals.
- Bond Formation: In VBT, the atomic orbitals combine to form new molecular orbitals, with the same number of molecular orbitals as there were atomic orbitals. In MOT, the bond formation is due to the overlap of atomic orbitals and the formation of localized bonds.
- Resonance: Resonance plays a crucial role in VBT, while it is not required in MOT.
In summary, VBT focuses on the localized bond formation and electron distribution in atomic orbitals, while MOT considers the molecule as a whole and accounts for the delocalization of electrons in molecular orbitals. Both theories are important and provide different perspectives on chemical bonding.
Comparative Table: Molecular Orbital Theory vs Valence Bond Theory
Here is a table comparing Molecular Orbital Theory and Valence Bond Theory:
| Feature | Molecular Orbital Theory | Valence Bond Theory |
|---|---|---|
| Description | Describes the behavior of electrons in a molecule in terms of combinations of atomic wavefunctions. | Describes chemical bonding in a molecule by combining atomic orbitals. |
| Electrons | Electrons are delocalized throughout the molecule. | Electrons are confined to specific bonds. |
| Bonding | Explains bonding through bonding molecular orbitals. | Explains bonding through the formation of covalent bonds between atoms. |
| Geometry | Reflects the geometry of the molecule. | Does not directly describe the shape of molecules. |
| Bond Order | Represents the bond order by the number of bonding electron pairs minus the number of antibonding electron pairs. | Not directly related to bond order. |
| Energetics | Describes energy levels of molecular orbitals. | Does not directly describe energy levels of molecular orbitals. |
In summary, Molecular Orbital Theory focuses on the delocalization of electrons throughout the molecule and explains bonding through bonding molecular orbitals. On the other hand, Valence Bond Theory describes chemical bonding by combining atomic orbitals and is more focused on the formation of covalent bonds between atoms.
- Molecular Orbital Theory vs Hybridization Theory
- Molecular Orbital vs Atomic Orbital
- Bonding vs Antibonding Molecular Orbitals
- Valency vs Valence Electrons
- Electrovalent vs Covalent Bond
- Molecular Geometry vs Electron Geometry
- Atomic Orbital vs Hybrid Orbital
- Ionic vs Covalent Bonds
- Ionic Bonding vs Metallic Bonding
- Electrovalency vs Covalency
- Orbital Diagram vs Electron Configuration
- Crystal Field Theory vs Ligand Field Theory
- Bond Dipole vs Molecular Dipole
- Coordinate Covalent Bond vs Covalent Bond
- Ionic vs Molecular Solids
- Atomic Spectroscopy vs Molecular Spectroscopy
- Sigma vs Pi Molecular Orbitals
- Electron Pair Geometry vs Molecular Geometry
- Molecular Equation vs Ionic Equation