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Application of New Cybernetics in Physics describes the application of new cybernetics to physical problems and the resolution of basic physical paradoxes by considering external observer influence. This aids the reader in solving problems that were solved incorrectly or have not been solved.
Three groups of problems of the new cybernetics are considered in the book:
(a) Systems that can be calculated based on known physics of subsystems. This includes the external observer influence calculated from basic physical laws (ideal dynamics) and dynamics of a physical system influenced even by
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Produktbeschreibung
Application of New Cybernetics in Physics describes the application of new cybernetics to physical problems and the resolution of basic physical paradoxes by considering external observer influence. This aids the reader in solving problems that were solved incorrectly or have not been solved.

Three groups of problems of the new cybernetics are considered in the book:

(a) Systems that can be calculated based on known physics of subsystems. This includes the external observer influence calculated from basic physical laws (ideal dynamics) and dynamics of a physical system influenced even by low noise (observable dynamics).

(b) Emergent systems. This includes external noise from the observer by using the black box model (complex dynamics), external noise from the observer by using the observer's intuition (unpredictable dynamics), defining boundaries of application of scientific methods for system behavior prediction, and the role of the observer's intuition for unpredictable systems.

(c) Methods for solution of basic physical paradoxes by using methods of the new cybernetics: the entropy increase paradox, Schrödinger's cat paradox (wave package reduction in quantum mechanics), the black holes information paradox, and the time wormholes grandfather paradox. All of the above paradoxes have the same resolution based on the principles of new cybernetics. Indeed, even a small interaction of an observer with an observed system results in their time arrows' alignment (synchronization) and results in the paradox resolution and appearance of the universal time arrow.

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Autorenporträt
Professor Oleg Kupervasser, physicist, obtained his PhD at Weizmann Institute of Science, Faculty of Physics, Israel in 1999. He has a Certification in Bioinformatics (ATLAS College, 2002). He worked as scientist for Technion, in Haifa, Israel, between 2005 and 2008; as Consultant of Rafael, Haifa, between 2005 and 2008; and at the Moscow State University between 2008 and 2010. He was been Algorithm Group Leader of Transas Group of Companies in Moscow for the years 2011-2012, and he worked at LG Technology Center or Moscow in 2011. He became owner of Transist Video LLC, Skolkovo, Moscow in 2012. He was awarded the Skolkovo Project Participator Association prize in 2012, and he was included in the new 30th Pearl Anniversary Edition of "Marquis Who's Who in the World," 2013. His achievements include resolution of the basic paradoxes of physics; the pole solution in formation of Saffman-Taylor fingers and the flame front propagation; a patent for a continuum solvent model: DISOLV program-algorithm, implementation and validation; research in visual-navigation algorithm; and design of a server for decomposition of a protein structure on a set of closed loops.