Measurement Standards Variability in the Universe Modeling - Groppen, Vitaly
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This is the first work which discusses an approach for the study of universe simulators based on the idea of measurement standards variability. This approach permits us to develop free of contradictions simulators of the universe, describing the Hubble law, red shifts independence on wavelength, tired light effect and some others as manifestations of measurement standards variability. Studies using this approach seem to show that the universe in terms of the radial velocities of galaxies seems to be more stable than it is believed today. Experiments reflect the efforts to verify the efficiency…mehr

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Produktbeschreibung
This is the first work which discusses an approach for the study of universe simulators based on the idea of measurement standards variability. This approach permits us to develop free of contradictions simulators of the universe, describing the Hubble law, red shifts independence on wavelength, tired light effect and some others as manifestations of measurement standards variability. Studies using this approach seem to show that the universe in terms of the radial velocities of galaxies seems to be more stable than it is believed today. Experiments reflect the efforts to verify the efficiency of this approach for creation of simulators, describing macro and micro components of the universe. Results of experiments convince of the correctness of the proposed models.
Autorenporträt
Vitaly Groppen graduated from the North-Caucasian Institute of Mining and Metallurgy, Russia in 1967. From 1989 until now he is founder and head of the Data Processing Department in the same Institution. Since 2008 he is the Director of the Research Institute of Applied and Theoretical Informatics. He is the author of 130 papers and 7 monographs.