A.K. Gorbunov - Dr. Sc. (Phys.-Math.), Professor, Kaluga branch of the Bauman MSTU. E-mail: kf_mgtu_fiz@mail.ru A.P. Korzhavyi - Dr. Sc. (Eng.), Professor, Kaluga branch of the Bauman MSTU. E-mail: fn2kf@list.ru L.V. Lisenko - Dr. Sc. (Eng.), Professor, Kaluga branch of the Bauman MSTU. E-mail: baldprice@mail.ru A.L. Lisenko - Ph. D. (Eng.), Associate Professor, Kaluga branch of the Bauman MSTU. E-mail: baldprice@mail.ru V.K. Shatalov - Dr. Sc. (Eng.), Professor, Kaluga branch of the Bauman MSTU. E-mail: vkshatalov@yandex.ru

Kinetic equation explains the law of conservation of momentum fading process (transformation) of one waveform to another. On this basis, the physical meaning of the parameter is represented by the strength and the corresponding analytical conclusions. The analytical solution is obtained on the basis of the phenomenological equations dimensionless power technology processes. The connection between the quantitative characteristics of traffic flows along the interface with kinetic border flows. The close similarity of the transport of matter, energy, momentum (angular momentum), the consequence of which may follow that in the foreseeable future it will serve as a basis for improvement of the noosphere, the creation of new convergent technologies. The accuracy of this assertion can be justified by the fact that quite a long time the development of science and technology with hu-manity replicated device separate units, the principles and mechanisms of complex living systems. Currently, due to the high achievements in the field of information technology has become possible to realize not only simple model systems, but also to design complex nature similar technosphere, organically fit into the environment.

 

1. Vejjsman M.G. Tajjnaja zhizn tela: kletka i ee skrytye vozmozhnosti. SPb.: Vektor. 2011. 160 s.
2. Glagolev K.V., Morozov A.K. Fizicheskaja termodinamika: Ucheb. posobie. M.: MGTU im. N.EH. Baumana. 2007. 272 s.
3. Lifshic E.M., Pitaevskijj L.P. Fizicheskaja kinetika. M.: Nauka. 1979. 528 s.
4. Gurevich L.EH. Osnovy fizicheskojj kinetiki. L.-M.: Gosudarstvennoe izdatelstvo tekhniko-teoreticheskojj literatury. 1940. 242 s.
5. Lysenko L.V. Teoreticheskie osnovy konstruktorskikh ocenok ehnergotekhnologicheskikh processov. M.: EHnergoatomizdat. 1997. 64 s.
6. EHnergotekhnologicheskie processy. Problemy i perspektivy: Sb. M.: MGTU im. N.EH. Baumana. 2000. 190 s.
7. Lysenko L.V., Minaev A.K., Bulanov A.V., Lysenko A.L. Kinetika impulsa // Korablestroenie i okeanotekhnika. Problemy i perspektivy: Materialy Mezhdunar. konf. Vladivostok: DVGTU. 2001. S. 499−501.
8. Kovalchuk M.V. Nanotekhnologii ? fundament naukoemkojj ehkonomiki 21 veka // Rossijjskie nanotekhnologii. 2007. T. 2. № 1−2. S. 6−11.
9. Kovalchuk M.V. Ideologija nanotekhnologijj. M.: Akademkniga. 2010. 224 s.
10. Kovalchuk M.V. Konvergencija nauk i tekhnologijj - proryv v budushhee // Rossijjskie nanotekhnologii. 2011. T. 6. № 1−2. S. 13−23.
11. Kovalchuk M.V. Nauka i zhizn: moja konvergencija. T. 1. M.: Akademkniga. 2011. 304 s.
12. Kovalchuk M.V., Narajjkin O.S., JAcishina E.B. Konvergencija nauk i tekhnologijj i formirovanie novojj noosfery // Rossijjskie nanotekhnologii. 2011. T. 6. № 9−10. S. 10−13.