Born-Oppenheimer approximation/Related Articles: Difference between revisions
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==Articles related by keyphrases (Bot populated)== | |||
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Latest revision as of 11:01, 20 July 2024
- See also changes related to Born-Oppenheimer approximation, or pages that link to Born-Oppenheimer approximation or to this page or whose text contains "Born-Oppenheimer approximation".
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Auto-populated based on Special:WhatLinksHere/Born-Oppenheimer approximation. Needs checking by a human.
- Atomic orbital [r]: Function in quantum mechanics describing the motion of an electron around the nucleus of an atom. [e]
- Benzene [r]: A six carbon aromatic compound commonly used in industry as a precursor for other important aromatics such as toluene, or benzoic acid. [e]
- Eckart conditions [r]: Equations describing the conditions under which the vibrations of molecules can be separated from molecular rotations and translations [e]
- Edward Teller [r]: (1908-2003) One of the most controversial scientists of the 20th century because of his role as the main developer of the hydrogen bomb, his outspoken defense of an unassailable nuclear arsenal, and support for President Reagan's Strategic Defensive Initiative. [e]
- Intermolecular forces [r]: Non-covalent forces between atoms and molecules; often synonymous with Van der Waals forces. [e]
- Molecular Hamiltonian [r]: Quantum mechanical operator describing the energy associated with motions and interactions of the electrons and nuclei that constitute a molecule. [e]
- Molecular orbital theory [r]: Deals with definition and computation of molecular orbitals. [e]
- Quantum chemistry [r]: A branch of theoretical chemistry, which applies quantum mechanics and quantum field theory to address issues and problems in chemistry. [e]
- Renner-Teller effect [r]: In linear molecules the effect of rotation and vibration on the electronic spectrum. [e]
- Molecular Hamiltonian [r]: Quantum mechanical operator describing the energy associated with motions and interactions of the electrons and nuclei that constitute a molecule. [e]
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