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| TRANSFORMATION OF THE PHOTONS OF SOLAR RADIATION IN THE QUASI-HOLES AND QUASI-ELECTRONS, THE PHYSICAL MECHANISM OF ENERGY TRANSFER IN THE THREE-ZONE |
| Wave-particle dualismof electromagnetic radiationleads to asymmetricaldualismin thecolor theoryof solar radiation. There aretheoryof color for solarradiation,proposedby NewtonandGoethe. |
| Publishing date: April 1, 2012 |
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| NOBEL RESULT IN PHYSICS HAS BEEN OBTAINED BY THE TRIAL AND ERROR METHOD |
| Two natural formations, which consist of one and the same chemical element –carbon and have radically different properties, are known. One writes on paper with the help of graphite and cuts glass with the help of diamond. Why? The new theory of microworld gives a simple answer to this question. Carbon is the sixth element in Mendeleyev’s table. Its nucleus has 6 protons, and the number of the neutrons can be various. 98.90% of the nuclei of the carbon atoms have 6 neutrons, and 1.10% has 7 neutrons. |
| Publishing date: October 10, 2010 |
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| MODEL OF ATOM’S NUCLEUS AND TABLE OF ELEMENTS. |
| Every subsequent element of the table of elements differs from the previous one in the amount of protons in its nucleus which is increased by one unit and the amount of neutrons is increased by several units in general. That means , that there are more neutrons in the nucleus than protons (without taking into consideration the lightest nucleuses). The scientific literature doesn’t give any explanation of this strange correlation of neutrons’ number to the protons’ number. |
| Publishing date: December 16, 2003 |
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| QUASICRYSTALLIZATION OF METALS AT ULTRAHIGH ENERGY OF ACTION |
| The theoretical description of processes of a crystallization of multicomponent metal melts makes one of enough difficult problems of the modern metallurgical science. At transition to controllable exterior action to phase quasichemical responses of solidification, similar difficulties are transmuted into the composite problems. Especially brightly, it is shown at the complex analysis of an amorphous - crystalline solidification of a melt’s fluid during superhigh-energy electro-current pulsing processing /SEECPP/ on a method of academician D.I.Korneev. Many specific features of the modular transitions expressing in the unique phenomenon of formation less-crystal of the high - anisotropic without - arborescent metal-matrixes here is observed. It substantially staticizes search of algorithms of build-up of the theoretical kettle of model operation of similar processes. |
| Publishing date: September 16, 2003 |
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| ACTION OF HIGH-ENERGY ELECTROIMPULSES ON METAL MELTS |
| Action of superhigh-energy electroimpulses on crystallization melts various steels and alloys for the first time was comprehensively explored by academician D.I.Korneev at making of new methods of electro slag welding [1-3]. During a series manifold physics of metals experiments by him, the new effects varying structure and properties recrystallization of metals were unclosed. Among the data crystal physics phenomena’s are oozed, on the practical value, mechanics and corrosion effects. Thus successfully solved a problem of technological overlapping of two various physical processes - electro slag welding and temperature cycling of annealing. Scientific - applied aspects of the phenomenon of electro current pulsing processing /ECPP/ metal melts in modes of ultrahigh energies consist in opening the key opportunity of re-structuring metal matrix with giving of necessary service performances. In too time ECPP solves also a series of special problems, allowing gaining welded joints with high stability of metal of a seam mechanical and corrosion fractures without the subsequent thermal processing. |
| Publishing date: June 3, 2003 |
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| ON THE PROBLEM OF CRYSTAL METALLIC LATTICE IN THE DENSEST PACKINGS OF CHEMICAL ELEMENTS |
| The literature generally describes a metallic bond as the one formed by means of mutual bonds between atoms' exterior electrons and not possessing the directional properties. However, attempts have been made to explain directional metallic bonds, as a specific crystal metallic lattice.
This paper demonstrates that the metallic bond in the densest packings (volume-centered and face-centered) between the centrally elected atom and its neighbours in general is, probably, effected by 9 (nine) directional bonds, as opposed to the number of neighbours which equals 12 (twelve) (coordination number).
Probably, 3 (three) "foreign" atoms are present in the coordination number 12 stereometrically, and not for the reason of bond. This problem is to be solved experimentally. |
| Publishing date: May 20, 2003 |
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| ON THE PROBLEM OF CRYSTAL METALLIC LATTICE IN THE DENSEST PACKINGS OF CHEMICAL ELEMENTS |
| The literature generally describes a metallic bond as the one formed by means of mutual bonds between atoms' exterior electrons and not possessing the directional properties. However, attempts have been made to explain directional metallic bonds, as a specific crystal metallic lattice.
This paper demonstrates that the metallic bond in the densest packings (volume-centered and face-centered) between the centrally elected atom and its neighbours in general is, probably, effected by 9 (nine) directional bonds, as opposed to the number of neighbours which equals 12 (twelve) (coordination number). |
| Publishing date: February 5, 2003 |
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| THE NATURE OF COMPENSATION FOR TRANSFORMING HEAT INTO PERFORMANCE |
| The following article is a retrenchment of the two chapters of the author research work entitled: ”The Dinamics Of The Unbalanced Dispersive Environments”.
There are lot of statements of the second law of thermodynamics in phenomenological thermodynamics. For example [L-2] the author gives 18 statements. .Meanwhile, if we study all of them carefully, they can be divided into two groups: one relates to the law of entropy s development, the other to the compensation for transforming heat into performance. The reasons and the mechanism of entropy `s development in the closed thermodynamic environment are studied in the 1`st chapter of the work mentioned, where it is said, that the second law of thermodynamics is the consequence of the degenarative effect of the resultant impulse as the carrier of the cooperative kinetic energy in a multiple environment. This made possible to come to the conclusions which were contradicting the compensation for transforming heat into performance and the relating statements of the2`nd law of thermodynamics. The reasons and the mechanism of the compensation for transforming heat into performance, one of the keystone issues of the classical thermodynamics, will be spoken about in this article. |
| Publishing date: December 17, 2002 |
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