This paper presents the results of 9-year biogeophysical monitoring (1998-2007) of spatial and time effects of space weather and atmospheric and climatic factors on the status of normal subjects, which was carried out simultaneously in geographical areas situated at different latitudes. Requirements to conditions of long-term telecommunication biogeophysical monitoring studies are formulated, providing the reliability and reproducibility of the experiment results. The results indicate that the role of atmospheric and climatic factors in modification of dynamic regimens of human body functioning is significantly higher in subjects living at lower latitudes. The spatial and time regularities of the effects of space and physical factors on human body were detected (the latitude, time, trigger, amplitude, synergetic, and cumulative effects of the population averaging of the reaction). These effects indicate that human body belongs to a class of open nonlinear dynamic systems with all characteristics intrinsic of it.
A simultaneous monitoring in evaluating of the response of a cardiovascular system of healthy volunteers was performed. The research was oriented to changes of a space weather parameters in aurural (Tixie), subauroral (Yakutsk) and medium (Saratov) areas. In each of the experimental groups there was revealed an effect of synchronization between repolarization processes of ventrical myocard responding (according to a T-wave symmetry coefficient of a cardiogram) and geomagnetic activity (according Kp-index). At rest the group effect of synchronization (GES) of myocard in geomagnetic activity change was noticed in 33,3%-61,3% of the respondents. The origin of GES has features depending on the area of habitation and an age of the volunteers. The study is performed with the partial financial support in partnership with Russian-Ukrainian grant RFFI №14-02-90424 ukr_a.
In this work, a hydrophobic non-continuous granular coating with a thickness of no more than 1-3 microns, obtained by modifying textile materials with nonequilibrium low temperature plasma (NLTP) in argon-acetylene medium (70:30), was investigated. As a result, the obtained coating is a mixture of hydrocarbons, mainly paraffins, as well as unsaturated hydrocarbons formed during the polymerization and decomposition of acetylene in the presence of copper, such as alkenes, polyacetylene isomers and others, which contribute to an increase in waterproofing properties.
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