American Journal of Physical Chemistry
Volume 3, Issue 5, October 2014, Pages: 72-76
Received: Aug. 21, 2014;
Accepted: Sep. 17, 2014;
Published: Oct. 30, 2014
Views 2599 Downloads 112
Vitaly Pavlovich Malyshev, Chemical and metallurgical institute. Karaganda, Republic of Kazakhstan
Asrta Mundukovna Makasheva, Chemical and metallurgical institute. Karaganda, Republic of Kazakhstan
Yana Alekseevna Fedorovich, Chemical and metallurgical institute. Karaganda, Republic of Kazakhstan
The heat energy, which is a measure of chaotic motion of particles and which is determined by Boltzmann distribution that is valid not only for gaseous but condensed state of matter, could be an analytical tool to reveal the united nature of solid, liquid and gaseous states based on introduction of new concepts of virtual crystal-mobile, liquid-mobile and vapor-mobile particles.
Vitaly Pavlovich Malyshev,
Asrta Mundukovna Makasheva,
Yana Alekseevna Fedorovich,
Heat Energy as Measure of Matter Chaotization, American Journal of Physical Chemistry.
Vol. 3, No. 5,
2014, pp. 72-76.
E.M. Soroko. Structural Harmony of Systems. – Minsk: Science and Technology, 1984. 264 p.
V.P. Malyshev. Probabilistic and Deterministic mapping. – Almaty-Karaganda, Gylym, 1994. – 376 p.
V.P. Malyshev, A.M. Nurmagambetova(Makasheva). The Concept of chaotic Particles as the Basis of a Single Display of Solid, Liquid and Gaseous States of Matter // Bulletin of the Kazakh National University, chemical Series. 2004. № 3(35). P. 53-67.
V.P. Malyshev, A.M. Nurmagambetova. United interpretation of aggregate substance conditions by degree of its chaotization // Eurasian Physical technical journal. – 2004. – vol. 1. № 2. Р. 10-14.
V.P. Malyshev, N.S. Bekturganov, A.M. Nurmagambetova, T. Suleymenov. Development of a unified theory of chaotic particles for solid, liquid and gaseous states and its application to improve technology, increase production and improve the quality of blister copper and copper rods // Bulletin of the Kazakh National University, a series of chemical. – 2007. № 2(46). P. 55-66.
V.P. Malyshev, N.S. Bekturganov, A.M. Turdukozhayeva (Makasheva), T. Suleymenov. Basic concepts and according to the concept of randomized particles // Bulletin of the National Academy of Engineering. – 2009. – № 1. – P. 71-85.
V.P. Malyshev, A.M. Turdukozhayeva, T. Suleymenov. Virtuality of solid, liquid and gaseous states of matter / / Encyclopedia chemical engineer. – 2009. – № 12. – P. 13-23.
V.P. Malyshev, B.T. Abdrakhmanov, A.M. Nurmagambetova. Fusibility and plasticity of of metals. – Moscow: Scientific World, 2004. 148 p.
V.P. Malyshev, A.M. Makasheva. Relation self diffusion activation energy with the concept of randomized particles // Reports of the National Academy of Sciences of the Republic of Kazakhstan. – 2014. – № 2. – P. 15-21.
V.P. Malyshev, A.M. Turdukozhayeva. Deformation and fracture of materials as a process of randomization // Deformation & Fracture of Materials and Nanomaterials – DFMN 2011 / Book of articles, ed. by О.А. Bannykhet. al. – Moscow: InterkontaktNauka, 2011. – P. 73-74.
V. Malyshev, A. Makasheva, N. Bekturganov. Viscosity, fluidity and density of the substances. Aspect of Chaotization. – Saarbücken: Lambert Academic Publishing, 2013. – 340 p.
Turdukozhayeva A.M., Fedorovich Y.A., Malyshev V.P., Suleymenov T., Kazhikenova A.Sh. Cluster and Associate Model of Temperature Dependency of Liquid Borium Viscosity //Complex Application of Mineral Raw Materials. – 2013. - No. 2. – P.68-74.
Volkov A.I., Zharskiy I.M. Comprehensive Chemistry Reference Book. – Mn.: Sovremennaya Shkola, 2005. – 608 p.
V.P. Malyshev, A.M. Turdukozhayeva, E.A. Ospanov, B. Sarkenov. Evaporation and boiling simple substances. – Moscow: Scientific World, 2010. – 304 p.
M.A. Leontovich. Introduction to Thermodynamics. Statistical Physics. – Moscow: Higher school, 1983. – 416 p.