9.2: Molecular Orbital Theory
- Page ID
- 13525
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- Molecular orbital theory is concerned with the combination of atomic orbitals to form new molecular orbitals. These new orbitals arise from the linear combination of atomic orbitals to form bonding and antibonding orbitals. The bonding orbitals are at a lower energy than the antibonding orbitals, so they are the first to fill up. By figuring out the molecular orbitals, it is easy to calculate bond order.
- MO. Molecular Orbitals
- MO1. Introduction
- MO10. S and P Mixing in HF
- MO11. Polyatomic Geometry and Symmetry
- MO12. Approximations in Complicated Structures
- MO13. Building MO from Smaller Pieces
- MO14. Delocalization
- MO15. Polyenes
- MO16. Aromatics
- MO17. Heteroaromatics
- MO18. Frontier Orbitals
- MO19. Solutions to Selected Problems
- MO2. Dihydrogen
- MO3. Lessons from Dihydrogen
- MO4. Sigma Bonding with P Orbitals
- MO6. Electron Population
- MO7. Experimental Evidence
- MO8. Symmetry & Mixing
- MO9. Bonding Between Different Atoms