МЕТОДИКА ИССЛЕДОВАНИЙ ИНФРАЗВУКОВОГО ВЗАИМОДЕЙСТВИЯ КОСМИЧЕСКОЙ ПОГОДЫ, ПРИРОДНЫХ И ТЕХНОГЕННЫХ КАТАСТРОФ С НООСФЕРОЙ ЗЕМЛИ

Рассмотрен инфразвук в качестве связующего звена между характеристиками космической погоды, климатом и биосферой Земли. Инфразвук рассмотрен как фактор, который является информативным параметром в регистрации природных и техногенных катастроф. Подчеркивается необходимость усиления роли космических аппаратов в исследованиях биосферы Земли путем регистрации инфразвука
Розглянуто інфразвук в якості сполучної ланки, яка здійснює зв’язок між характеристиками космічної погоди, кліматом і біосферою Землі. Інфразвук розглянуто як фактор, який є інформативним параметром у реєстрації природних і техногенних катастроф. Підкреслено, що необхідно посилення ролі космічних апаратів у дослідженнях біосфери Землі шляхом реєстрації інфразвуку
Infrasound as an element in communication between the characteristics of space weather, climate and biosphere of the Earth is considered. Infrasound as a factor, which it is as informative parameter in the natural and man-made disasters registration is considered. Emphasizes that, it is needed the strength increasing of the satellites role in the study of Earth's biosphere by recording the infrasound.A full analysis of the impact on the living world by infrasound during development of natural and man-made disasters or factors of space weather is impossible without special studies. It can help to check radiation levels of infrasound spacecraft. It determines the relevance of the present study.For the calculations of the characteristics of infrasound acoustic field monopole made up an algorithm and a program written in the language Fortran-4. The program consists of individual generated cycles. Calculations are performed assuming that the atmosphere with the infrasonic waves propagation, is homogeneous, layers are absent, the temperature is 20 degrees Celsius, and the sound velocity in the air in this case is340 m/ s.Acoustic waves attenuation in the air due to the presence of shear and bulk viscosity and also thermal conductivity impact.If we neglect the thermal losses, and also take into account that the bulk viscosity must be taken into account, as a rule, for high frequencies, then we can assume that the propagation loss of the traveling wave in the real environment due to the shear viscosity.The aim of this work was the research methodology development of infrasound interaction of space weather, natural and manmade disasters with the Earth’s noosphere.A factor that has a significant impact on the infrasound vibrations in the atmosphere is a seismic activity. And it can be an external impact on the preparatory processes and the result of it. Currently, there is a great need for the creation of systems that combine space and ground-based observations that accuratel