ISSN 0869-6632 (Print)
ISSN 2542-1905 (Online)


For citation:

Ryazanova G. E., Ryazantsev N. V. Experimental determination of continuous vibrations in electroconductivity of natural waters. Izvestiya VUZ. Applied Nonlinear Dynamics, 2012, vol. 20, iss. 2, pp. 104-111. DOI: 10.18500/0869-6632-2012-20-2-104-111

This is an open access article distributed under the terms of Creative Commons Attribution 4.0 International License (CC-BY 4.0).
Full text PDF(Ru):
(downloads: 163)
Language: 
Russian
Article type: 
Article
UDC: 
544.431.8

Experimental determination of continuous vibrations in electroconductivity of natural waters

Autors: 
Ryazanova Galina Evgenevna, Saratov State Agrarian University by N.I. Vavilov
Ryazantsev Nikita Valerevich, Saratov State Agrarian University by N.I. Vavilov
Abstract: 

In the process of hydrochemical analysis of natural waters by the direct contact conductometry method the phenomenon of continuous vibrations in specific electroconductivity was discovered for the first time. The possible reasons of the appearance of the vibration process are discussed. 

Reference: 
  1. Shemyakin FM. Physico-chemical periodic processes. Moscow-Leningrad: Izd-vo Akad. of Sciences of the USSR, 1938. 183 p. (in Russian).
  2. Shaub YuB. Conductometry. Vladivostok: Dalnauka; 1996. 488 p. (in Russian).
  3. Chizhevsky AL. The terrestrial echo of solar storms. Moscow: Mysl; 1976. 367 p. (in Russian).
  4. Ageev IM, Shishkin GG. Correlation of the solar activity with water electrical conductivity. Biofizika. 2001;46(5):829–832 (in Russian).
  5. Ermilov VI, Luchkov MN. Annual and shorter cycles of fluctuations in the electrical conductivity of aqueous media. Ivanovo: Dept. in VINITI 20.07.2004, No. 1270 V; 2004. (in Russian).
  6. Ermilov VI, Luchkov MN. Interrelation of fluctuations of isolated aqueous solutions of sodium chloride. Ivanovo: Dept. in VINITI 13.04.2004, No. 604 V; 2004. (in Russian).
  7. Kalinin VV, Kazak AV. Techniques for measuring electric conductivity of natural surface waters: Theoretical fundamentals. Moscow Univ. Geol. Bull. 2008;63:108–113. DOI: 10.3103/S0145875208020063.
  8. Kalinin VV, Kazak AV. Methods of measuring electric conductivity of surface natural water: Experimental results. Moscow University Geology Bulletin. 2008;63:178–184. DOI: 10.3103/S014587520803006X.
  9. Prigogine I, Stengers I. Order out of chaos. New York: Bantam Books; 1984. 349 p.
  10. Trubetskov DI, Mchedlova ES, Krasichkov LV. Introduction to the Theory of Self-Organization of Open Systems. Moscow: Fizmatlit; 2002. 198 p. (in Russian).
  11. Knyazeva EN, Kurdyumov SP. Synergetics as a New Worldview: Dialogue with I. Prigozhin. Russian Studies in Philosophy. 1992;12:3–20 (in Russian).
  12. Ruzavin GI. Problems of simple and complex in the evolution of sciences. Russian Studies in Philosophy. 2008;3:102–114 (in Russian).
  13. Kapitsa SP, Kurdyumov SP, Malinetskii GG. Synergetics and Forecasts on the Future. Moscow: Editorial URSS; 2003. 288 p.(in Russian).
  14. Antonov VF, et al. Biophysics. Moscow: VLADOS; 2003. 288 p. (in Russian)
  15. Pasynsky AG. Biophysical chemistry. Moscow: Vysshaya Shkola; 1968. 432 p. (in Russian).
  16. Shnol SE. Physico-chemical factors of biological evolution. Moscow: Nauka; 1979. 263 p. (in Russian).
  17. Abidor IG, Arakelian VB, Pastushenko VF, Tarasevich MR, Chernomordik LV. Electrical breakdown of lipid bilayer membranes. Dokl Akad Nauk SSSR. 1978;240(3):733–736 (in Russian).
  18. Antonov VF. Membrane transport. Soros Educational Journal. 1997;6:14–20 (in Russian).
  19. Biophysics of membranes. Ion channels and their models. Ed. akad. Kostyuk PG. Moscow: USSR Academy of Sciences. 1982;2. 308 p. (in Russian)
  20. Antonov VF. Lipid pores: Stability and permeability of membranes. Soros Educational Journal. 1998;10:10–17 (in Russian).
  21. Chizmadzhev YuA, Arakelyan VB, Pastushenko VF. Membrane biophysics. Moscow: Nauka. 1981. (in Russian).
  22. Vladimirov YuA. Biological membranes and non-programmed cell death. Soros Educational Journal. 2000;9:2–9 (in Russian).
  23. Liberman EA, Chailakhian LM. The nature of action potentials. Biophysics. 1959;4(5):133–160.
  24. Bregestovski PD. Architecture of receptor-operated ion channels of biological membranes. Biophysics. 2011;56(1):51–64. DOI: 10.1134/S0006350911010064.
  25. Volkenstein MV. Biophysics. Moscow: Nauka; 2003. (in Russian).
  26. Trubetskov DI. Phenomenon of Lotka–Volterra mathematical model and similar models. Izvestiya VUZ. Applied Nonlinear Dynamics. 2011;19(2):69–88 (in Russian). DOI: 10.18500/0869-6632-2011-19-2-69-88.
Received: 
20.09.2011
Accepted: 
20.09.2011
Published: 
29.06.2012
Short text (in English):
(downloads: 83)