Korablev G.A., Zaikov G.E., Kodolov V.I., Vasilyev Yu.G., Maksimov P.L., Petrova N.G. Self-organization and Entropic S-lines

DOI: http://dx.doi.org/10.15688/jvolsu10.2016.2.3

SELF-ORGANIZATION AND ENTROPIC S-LINES

Grigoriy Andreevich Korablev

Doctor of Chemical Sciences, Professor, Head of Department of Physics,

Izhevsk State Agricultural Academy

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Studencheskaya St., 11, 426069 Izhevsk, Russian Federation

Gennadiy Efremovich Zaikov

Doctor of Chemical Sciences, Professor,

Head of Department of Biological and Chemical Physics of Polymers,

Institute of Biochemical Physics named after N. M. Emanuel, RAS

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Kosygina St., 4, 119334 Moscow, Russian Federation

Vladimir Ivanovich Kodolov

Doctor of Chemical Sciences, Professor,

Head of Department of Chemistry and Chemical Technology,

Izhevsk State Technical University named after M.T. Kalashnikov

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Studencheskaya St., 7, 426000 Izhevsk, Russian Federation

Yuriy Gennadyevich Vasilyev

Doctor of Medical Sciences, Head of Department of Physiology and Animal Sanitation,

Professor, Department of Histology, Cytology and Embryology,

Izhevsk State Agricultural Academy

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Studencheskaya St., 11, 426069 Izhevsk, Russian Federation

Pavel Leonidovich Maksimov

Doctor of Technical Sciences, Professor, Dean of the Faculty of Agro-Engineering,

Izhevsk State Agricultural Academy

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Studencheskaya St., 11, 426069 Izhevsk, Russian Federation

Natalya Grigoryevna Petrova

Specialist-Expert, Department of Information Security and Communication,

Ministry of Informatization and Communication of the Udmurt Republic

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Vadima Sivkova St., 186, 426057 Izhevsk, Russian Federation

Abstract. The concept of the entropy of spatial-energy interactions is used similarly to the ideas of thermodynamics on the static entropy. The idea of entropy appeared on the basis of the second law of thermodynamics and ideas of the adduced quantity of heat. Such rules are general assertions independent of microscopic models. Therefore, their application and consideration can result in a large number of consequences which are most fruitfully used in statistic thermodynamics. In this research we are trying to apply such regularities to selforganization assessing the degree of spatial-energy interactions using their graphic dependence in the form of S-lines. The nomogram to assess the entropy of different processes is obtained. The variability of entropic S-line demonstrations is discussed, in biophysical processes and engineering systems, as well.

Key words: self-organization, S-lines, entropy, spatial-energy parameter, biophysical processes, engineering systems.

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