Generalized Method of Calculation of Modified Spectrum Water
A. Fedyakin1, A. Kislitsyn2, L. Fedyakina3, Zh. Kortava4, N. Zaplatina5

1Aleksandr Fedyakin*, Department of physical culture and sport, Federal State Budget Educational Institution of Higher Education «Sochi State University», Sochi, Russian Federation.
2Alexandr Kislitsyn, Wellness Center «PYRAMID» Research laboratory «Physiology of active longevity» named after academician N.A. Agadzhanyan, Sochi, Russian Federation.
3Lidia Fedyakina, Department of physical culture and sport, Federal State Budget Educational Institution of Higher Education «Sochi State University», Sochi, Russian Federation.
4Zhanna Kortava, Department of physical culture and sport, Federal State Budget Educational Institution of Higher Education «Sochi State University», Sochi, Russian Federation.
5Nataliya Zaplatina, Department of physical culture and sport, Federal State Budget Educational Institution of Higher Education «Sochi State University», Sochi, Russian Federation.
Manuscript received on February 10, 2020. | Revised Manuscript received on February 21, 2020. | Manuscript published on March 10, 2020. | PP: 2342-2345 | Volume-9 Issue-5, March 2020. | Retrieval Number: F3066049620/2020©BEIESP | DOI: 10.35940/ijitee.F3066.039520
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Abstract: The article is devoted to the development of a generalized methodology for calculating the joint characteristics of the effect of modified spectrum water. Water quality control is important to recognize because of water pollution and disease. A framework for a review of water quality should be defined to ensure that if water quality is measured as appropriate, it should be expected. Basically, water quality monitors to ensure water safety are both sleepy and standard waters nearby and global. Various water sampling methods and technology can be used to determine the level and quantity of a chemical in water as test water. The article describes how to prepare water used in hydrogen generators, to prepare solutions, chromatographic samples, capillary electrophoresis, high performance liquid chromatography (HPLC), and other analyzers that require the use of high purity water. The study showed that the use of spring water with a modified spectrum leads to positive statistically significant changes. The article presents results according to the absolute measurements of the luminosity of water. As a result of the calculations, graphical dependencies of the joint characteristics of the efficiency of using spectrograph. A CDS / (Pt-TiO2) pumice was created without creating a Titania composite in the pumice in accordance with the floating coating, so that photocatalysis did not cause problems in the separation of the titanium solution. European Microscopy Emission Range (FESEM), Microscope Transmission (TEM), Used UV Visible Diffusion Spectroscopy (UV-Vis DRS), such as Photocatalyst Characterization. 
Keywords: Rate of Spectrum Processes, Wireless Sensor Networks Structurally Modified Water, GSM, Spectrograph, Real Time Monitoring.
Scope of the Article: Wireless Access Technologies for IoT