It is assumed that in the primordial state of the Universe
was missing the elements of matter, it was submitted to
electromagnetic photon field in a broad frequency band.
Photons with energy ε=1,02 born MeV electrons and
positrons, and photons with energy ε=1,87 born ÐœeV
protons and antiprotons. The Association of protons,
electrons and essential spectrum of photons created a
sustainable hydrogen atoms and neutrons. Association
of hydrogen atoms led to the creation of hydrogen
clusters, and merging neutron – neutron creation of
clusters (pulsars). As a result, the concentration of
photons in the Universe decreased and the universe
were compressed. The gravitational interactions
between the hydrogen and neutron clusters was coming
off of a mass of matter from both. The torn mass of
hydrogen clusters were created on the planet.
Separation of the mass from neutron clusters led to the
neutron exposure of the main hydrogen clusters and
loose parts from him (future planets). The latter, being
closer to the main hydrogen accumulation, under the
influence of neutron flux were redesigned to all
elements of the periodic table. The article describes
nuclear reactions convert one chemical element to
another. After irradiation of the primary hydrogen
clusters of neutrons and the emergence of the heavy and
superheavy hydrogen, started fusion reactions with the
release of photon energy and the transition of hydrogen
clusters in Stellar condition. They began to glow. The
selection of the photon energy of the Stars led to the
increase in the concentration of photons in the
Universe, the increase of the pressure and the expansion
of the Universe, which is what happens at the present
stage of its development. Combining antiprotons,
electrons (positrons) with the required spectrum of
photons created sustainable antihydrogen and
antineutrons, and their clusters – clumps of antimatter
in the Universe
In the article, we consider climatic conditions during the cold period of the year in the mountain claster of
Sochi. We have analyzed variability of time series of
air temperature and precipitation sums at meteostation
Krasnaya Polyana. We have established, that average
daily temperature in the cold period was growing
during the last thirty years. This process was
accompanied by decreasing of daily temperature
amplitides. Winter of the year 2016/17 is characterized
by early beginning of snow accumulation because of
comparatively low temperatures in December 2016.
This was the reason in general for comparatively more
dense snow cover and to more frequent avalanches
The methodology of evaluation of touristic
attractiveness of the Black sea coast of the Krasnodar
area is presented in this article. This method is based on
ranked assessment using statistical analysis
Considered in the study, there are specific features and
stratigraphy of the snow cover in the region of the
mountain claster of Sochi (Krasnaya Polyana) during
winter of 2016-2017. We have analyzed patterns of
snow thickness distribution, its dependence on the absolute elevation, slope exposition and landscape
type. Conclusions were made about the necessity of
the regular study of the structure and quality of the
snow cover for the purpose of mountain skiing
development
The article presents the experience of engineeringgeological
zoning to establish patterns of spatial
variability of the components of engineeringgeological
conditions. In the ArcGIS environment was
created a set of electron-digital maps, taking into
account the influence of adverse geological processes
and landforms for the design, construction and
operation of linear engineering structures.
The article examines an important matter of topical
problems of the thickening of planned justification
from the starting points, for which we have known or
predetermined locations using satellite-surveying instruments.
The authors present a method of solving the
problem of two geodetic reference points using two
sources (the approach of the Hansen) by determining
the true adjoining corners and converting the problem
to the solution of direct angular notches. We have also
given a numerical example of the solution and the
estimated accuracy of the obtained coordinates of the
points P and Q using found valid adjoining corners
and edge lengths of the resulting triangles