Приклади вживання Molecular orbital Англійська мовою та їх переклад на Українською
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Molecular Orbital.
Atomic and molecular orbitals.
Molecular Orbital Theory and Resonance Theory.
Formation of π molecular orbitals.
The number of molecular orbitals formed is equal to the number of combining atomic orbitals. .
Fundamentals of the theory of molecular orbitals.
The number of newly formed molecular orbitals is equal to the number of combined atomic orbitals. .
Today the valence bond model has been supplanted by the molecular orbital model.
Subsequently, the molecular orbital(MO) method was developed, which considers the whole electronic structure of the molecule;
This allows calculating approximate wavefunctions such as molecular orbitals.
The negative value of the lowest unoccupied molecular orbital energy determines the electrophilic properties of the molecule.
For his fundamental work concerning chemical bonds andthe electronic structure of molecules by the molecular orbital method".
For example, molecules can be modeled by molecular orbital models that are approximate solutions to the Schrödinger equation.
For his fundamental work concerning chemical bonds andthe electronic structure of molecules by the molecular orbital method".
Each molecular orbital(wave function) takes into account the contribution to it of all the atomic electron orbitals(seeMOLECULAR ORBITAL  METHOD).
It is shown that conductance properties of such molecule aredetermined by the electrons situated at the completely occupied molecular orbitals.
The most common variant of the MOmethod is based on an approximate description of molecular orbitals by a linear combination of atomic orbitals(LCAO MO).
Crystallography, atomic and molecular orbitals and their hybridized variants, conjugated double bonds, conjugated triple bonds, cyclic and chain compounds of carbon and silicon.
United States"for his fundamental work concerning chemical bonds andthe electronic structure of molecules by the molecular orbital method"[66].
In the second approach Dr. Hoffmannanalyzed with the aid of various semiempirical methods the molecular orbitals of most types of reactive intermediates in organic chemistry- carbonium ions, diradicals, methylenes, benzynes, etc.
Robert S. Mulliken,"for his fundamental work concerning chemical bonds andthe electronic structure of molecules by the molecular orbital method.".
Condon made use of a molecular orbital method, assigning to the hydrogen molecule a structure based on the H2+ orbital  as evaluated by Burrau and placing both electrons in this orbital  with opposite spins.
Burrau, who showed that the single electron in the ion occupies an orbital, called a molecular orbital, that extends around both of the protons.
Approximate molecular orbital calculations and symmetry-based arguments were applied by his group to explore the basic structural features of every kind of inorganic molecule, from complexes of small diatomics to clusters containing many transition metal atoms.
In 1966, Mulliken received the Nobel Prize in Chemistry for his work on‘fundamental work concerning chemical bonds andthe electronic structure of molecules by the molecular orbital method'.
It has been demonstrated that the electron-vibron interaction andthe local pairing of electrons on the 3-fold degenerate molecular orbital causes superconductivity of alkali-doped fullerides which would have to be antiferromagnetic Mott insulators.
Quantum chemistry was subsequently developed by a large number of workers, including the American theoretical chemist Linus Pauling at Caltech,and John C. Slater into various theories such as Molecular Orbital Theory or Valence Theory.
His first major contribution was the development of the extendedHückel method(in collaboration with the Lipscomb group), a molecular orbital scheme which allowed the calculation of the approximate electronic structure of molecules, and which gave reasonable predictions of molecular  conformations and simple potential surfaces.
The orbit(orbital) is referred to not as a movement of the electron in a particular line but as a certain part of space, an area around the nucleus of the atom, which has the most likely location of the electron in the atom(atomic orbital) or in the molecule(molecular orbital).