Abstract:

Based on a previously developed magnetic resonance mechanism weak influences the analysis of fundamental symmetry, a feature of which is the impossibility of using a natural process to distinguish left from right. Found that the 40-year conviction of violating this fundamental symmetry in nuclear physics - the law of parity conservation in weak interactions - may be wrong. Substantiates the hypothesis that the apparent violation of the aforementioned fundamental law, for example, the beta decay, due to the open system because of not taking into account  (Z °-boson) are the components of the background radiation of undocumented modern experimental techniques and resonantly absorbed by the nucleus. The possible errors in the interpretation of experimental results SLWi and others on the non-conservation of parity and similar, as well as experiments S.Rubbia and others for the detection of intermediate bosons. The observed role of the CMB is a fundamental and universal. It is the cause of the phenomena that were previously considered spontaneous (eg, radioactivity). Solar-terrestrial relationships established ALChizhevsky, cosmophysical fluctuations and correlation SEShnol, the passage of time by N. Kozyrev explained by the influence of the corresponding components (transporter 4 fundamental interactions) CMB. Patterns of development and the dynamics of the CMB determine the evolution of the biosphere and noosphere from the past to the future From the standpoint of this hypothesis can not take a new approach to unraveling the causes that are hidden behind the fundamental principles of modern physics, the uncertainty principle and the principle of relativity. We propose a test experiment to test the hypothesis. Predicted new effects and consequences of this conception of the relic radiation.

Keywords: Classical physics postkvantovaya, The new paradigm, noosfera