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The Institute of Theoretical Chemistry is a scientific research institution founded in 1995. The aim of the Institute is to continue development of the direction of the classical theoretical chemistry and deepen understanding of the physical foundations of chemical phenomena more >>
| «The main difficulty in the teaching of chemistry lies in the explanation of chemical phenomena on the basis of quantum chemistry: the teachers are actually obliged to explain things that they were never able to understand themselves. The widely used quantum chemical system of explanations includes *essences whose physical bases are not clear (electron-wave, shared electron, exchange energy, electron commutation) and a large number of ad hoc rules (Pauli Principle, Hund Rule, Klechkovsky Rule, hybridization, etc.). |
| In the past ten years we have worked out a system of chemical phenomena explanations based upon a comprehensible physical basis: The electron is a particle with a definite mass, a negative charge, and with definite kinetic and potential energies. We have succeeded in explaining the main chemical phenomena without the use of the wave properties of microparticles, which actually have no sense. The system of explanations we have created is a logical continuation of the traditional development of chemistry». |
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Victor Y.Gankin Ph. D., Dr. of Science
President Institute of Theoretical Chemistry
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Results achieved during the development of the foundations of classical theoretical chemistry are: The main points of this book, from which a greater understanding of chemistry was gained, are as follows:
- a New Theory of Chemical Bonding and theory of chemical structure;
- a New General Theory of Chemical Reactions and Catalysis;
- Theory of Heat Capacity ;
- Theory of electrical conductivity;
- Theory of Metallic Bonding;
- explanation of the physical nature of a chemical bond and chemical transformations;
- explanation of the physical nature of the periodic law, the rule of Lewis, the rule of resonance, valence periodic;
- unification of explanations of the physical nature of gravity, inertia, electrostatics, electrodynamics and strong intranuclear interactions;
- developing a framework for new textbooks.
We invite all interested, nontrivial-minded readers to take part in the discussion of theories and provisions.
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