WHAT IS TIME?

Cover Page

Cite item

Full Text

Abstract

We discuss a phenomenological view on the problem of time in the context of the cosmological problem. Based on the concept of time as a force similar to gravity, created by the deformation of the past in the field of view of a modern observer, it is shown that the Universe is a binary system in which one part, hidden behind the time horizon, inevitably affects the second - the visible one. The physical content of the concept of time is the key to understanding the nature of hidden matter and the acceleration of the Universe.

About the authors

A. S Kartashov

Email: askart54@yandex.ru

References

  1. Пуанкаре А. Ценность науки // О науке. М.: Наука, 1990.
  2. Карташов А. С. Бог не играет в кости. Об эволюции и квантовании равновесных систем. Торонто, Канада: Altaspera Publishing & Literary Agency Inc., 2013.
  3. Карташов А. С. Платоновский образ вечности // Библиотека электронных публикаций Web-Института исследований природы времени. URL: http://chronos.msu.ru/images/ rreports/Kartashov_A.S._Platonovskii_obraz_ vechnosti.pdf
  4. Карташов А. С. К вопросу об изменении климата // Научный журнал Российского газового общества. 2014. № 2. С. 141-146.
  5. Капица С. П. Феноменологическая теория роста населения Земли // УФН. 1996. 166 (1). С. 63-80.
  6. Anderson J. D., Laing P. A., Lau E. L. et al. Study of the anomalous acceleration of Pioneer and 11 // Physical Review. 2002. Vol. 65, no 8.
  7. Wells J. W. Coral growth and geochronometry // Nature. 1963. Vol. 197, no. 4871. P. 948.
  8. Scrutton C. T. Periodicity in Devonian coral growth // Paleontology. 1965. Vol. 7, no. 4. P. 552-557.
  9. Beauvais L., Chevalier J. P. La croissance penodique chez les scloracti niaires actuels et fossils // Bul. Soc. Zool., France. 1980. Vol. 105, no. 2. P. 301-308.
  10. Neeleman M., Prochaska J. X., Kanekar N., Rafelski M. A cold, massive, rotating disk galaxy 1.5 billion years after the Big Bang // Nature. 2020. Vol. 581. P. 269-272.
  11. Harikane Y. et al. SILVERRUSH. VIII. Spectroscopic Identifications of Early Large-scale Structures with Protoclusters over 200 Mpc at z ∼ 6-7: Strong Associations of Dusty Star-forming Galaxies September. 2019. URL: https://arxiv.org/abs/1902.09555
  12. Cucciati O. et al. The progeny of a Cosmic Titan: a massive multi-component proto-supercluster in formation at z = 2.45 in VUDS // Astronomy & Astrophysics. September 6, 2018. Vol. 619. 22 p. https://doi.org/10.1051/0004-6361/201833655
  13. Jiang Linhua et al. A giant protocluster of galaxies at redshift 5.7 // Nature Astronomy. 2018. Vol. 2. P. 962-966.
  14. Козырев Н. А. Причинная механика и возможность экспериментального исследования свойств времени // История и методология естественных наук. Вып. 2. Физика. М., 1963. С. 95-113.
  15. Ziteng W. et al. Discovery of ASKAP J173608.2-321635 as a Highly Polarized Transient Point Source with the Australian SKA Pathfinder // The Astrophysical Journal. September 2021. Vol. 920. URL: https://www.researchgate.net/publication/354328956_ Discovery_of_ASKAP_J1736082-321635_as_a_Highly-Polarized_Transient_Point_Source_ with_the_Australian_SKA_Pathfinder

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies