The Global Imbalance of the Inanimate Nature

The preservation laws serve is the general expression of balancing properties and stability in nature. The preservation laws, according to Noether's theorem, are displays of properties of uniformity and isotropy of space and time. So, in the most global representation, the imbalance of the Universe assumes presence of some large-scale non-uniformity in it. The scale of such non-uniformity may form the basis for balance and imbalance correlation in the nature as a whole. This heterogeneity may lead to global infringement of laws of preservation, such as laws of preservation of an impulse, the impulse and the moment of energy. So, the most global imbalance of the inanimate nature may be connected with existence of large-scale fluctuations of properties of the Universe matter. It is possible to think about existence of such imbalance with presence of the allocated areas and directions on celestial sphere. Now most of interest in a science is represented by some types of global anisotropy. First, it is spatial anisotropy of cosmic microwave background. It depends of direction on celestial sphere, including formation of the allocated directions, and also "hot" and "cold" spots. Secondly, it is anisotropy of substance's density, concerning clusters and super clusters of galaxies. It is known as a large-scale structure of the Universe. This kind of anisotropy is connected with imbalance between distributions of radiated substance and observable emptiness. The geometry of this kind of imbalance is that the shining matter forms "cellular", "sheet" or "filaments" structure, forming the cells, filled with visible "voids". Thirdly, it is the hypothetical anisotropy connected with prospective dependence of speed of expansion of the Universe with direction on celestial sphere, and also with time. The relative size for this speed is known as Hubble's parameter. The told testifies about actuality of systematization, and also revelation of an interconnection and mutual conditionality of various kinds of global anisotropy of the Universe. So, astro- and photometric characteristics of various types of remote quasi-stellar objects may be used. Modern catalogues contain more than one million quasars. If the property of quasars on the average is invariable in various directions and during the various moments of time, anisotropy of average luminosity received with the calculations is a consequence of anisotropy of properties of expansion of the Universe. For example, if in any direction average settlement luminosity of quasars is underestimated, it is necessary to considering as consequence of the raised speed of expansion of the Universe in this direction. Thus it is possible to establish both speed, and acceleration of expansion of the Universe in these directions during the various moments of time on the basis of difference in average luminosity of the quasars observed in various directions of the Universe and on various removals from the ground observer. Comparison of the allocated places and directions in the Universe which are found out by means of the analysis of luminosity of quasars, and also distributions of temperature of a cosmic microwave background and distributions of density of system of voids and filaments in large-scale structure of the Universe will allow to think about global correlation of balance and imbalance in the scale of all inanimate nature as a whole.