History of Science. CENTENARY OF A "DIE-HARD"

THE GEOPOLITICAL LESSONS OF TUZLA

UKRAINE IN THE SEA OF INTERNATIONAL RELATIONS

THE NEW CYCLE OF ALLIANCE ENLARGEMENT: UKRAINE AND NATO

TRANSITION TO CONTROLLED EVOLUTION OF THE BIOSPHERE

PAGES FROM VERNADSKY'S DIARY OF 1943-1944

VLADIMIR VERNADSKY: POLITICIAN, HISTORIAN, PUBLIC FIGURE

THE PRESENT AND FUTURE OF THE MOST FERTILE SOIL

UNABLE TO LIVE OTHERWISE

ALONG THE WAY TO UNIVERSAL KNOWLEDGE

THE OCEAN-SINGLE LIVING ORGANISM

FORMULA OF LIFE

The possibility to avoid physical realizability of cosmological singularity (singularity of Big Bang of the Universe) directly in the orthodoxal general theory of relativity (GR) is substantiated. This can take place in the case of counting of cosmological time in frame of reference of coordinates and time (FR) not co-moving with matter, in which by the Weyl hypothesis galaxies of the expanding Universe are motionless. The absence of any limitations of the value of mass of astronomical body, which self-contracts in Weyl FR, when it has hollow topological form in the space of Weyl FR and mirror symmetry of its intrinsic space, is shown. Because of this symmetry, both external and internal boundary surfaces of body are observed as convex. At that, in the "turned inside out" internal part of the intrinsic space (in the Fuller-Wheeler lost antiworld) unlike external part, instead of the phenomenon of expansion phenomenon of contraction of "internal universe" is observed.

It is shown that equations of the gravitational field of General Relativity should be considered just as equations of spatially inhomogeneous thermodynamic state of utterly cooled down matter. This matter can only be the hypothetical substances such as ideal gas, ideal liquid and the matter of absolutely solid body. The real matter will be inevitably cooling down for infinite time and never will reach the state that is described by the equations of gravitational field. Gravitational field itself is the field of spatial inhomogeneity of thermodynamic state of dense matter of compact astronomical objects, as well as of strongly rarefied gas-dust matter of space vacuum.