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Volume 4, Issue 1-1, January 2015, Page: 1-4
Twin Universes: Universal Laws of Thermodynamics
Leong Ying, Thermo Fisher Scientific, Hoboken, USA
Received: Sep. 14, 2014;       Accepted: Sep. 17, 2014;       Published: Sep. 23, 2014
DOI: 10.11648/j.ajmp.s.2015040101.11      View  3587      Downloads  312
Big Bang is the widely accepted model of the beginning of our cosmos some 13.7 billion years ago from a single point source into its present-day expansion which is continuing at an unexplained accelerating rate. All known physical processes in our universe are governed by the laws of thermodynamics, except for the moment of creation which defies the conservation of energy even though the cosmos is the most ideal isolated system. Other observable anomalies that this single 4-dimensional space-time universal existence cannot account for include missing antimatter, rapidly rotating galaxies, faster-than-light-speed quantum entanglement and proton stability. Applying a universal conservation laws to both the fundamental quantities of energy and entropy forces the beginning of our cosmos to divide into a zero-balanced twin universes existence. This fully conserved 10-dimensional cosmos is now able to adequately explain these anomalies with model calculations that match the experimental data from cosmology and high-energy physics.
Twin Universes, Thermodynamics, Dark Energy, Dark Matter, Antimatter, Quantum Entanglement
To cite this article
Leong Ying, Twin Universes: Universal Laws of Thermodynamics, American Journal of Modern Physics. Special Issue: New Science Light Path on Cosmological Dark Matters. Vol. 4, No. 1-1, 2015, pp. 1-4. doi: 10.11648/j.ajmp.s.2015040101.11
L. Ying, Nuclear fusion drives cosmic expansion, vol. 137. Springer Proceedings in Physics: Springer, 2011, pp.379–381.
R. M. Santilli, Isodual theory of antimatter, Fundamental Theories of Physics: Springer, 2006.
G. F. R. Ellis, U. Kirchner and W. R. Stoeger, Multiverses and physical cosmology, vol. 347, Royal Astronomical Society, 2004, pp. 921-936.
A. D. Sakharov, Violation of CP symmetry, C-asymmetry and baryon asymmetry of the universe, vol. 5, JETP Letter, 1967, pp. 24-27.
J. P. Petit, Enantiomorphic universes with opposite time arrows, vol. 263, Comptes rendus de l’Academie des Sciences, 1977, pp. 1315-1318.
C. L. Bennett, M. Bay, M. Halpern, et al, The microwave anisotropy probe mission, vol. 583, The Astrophysical Journal, 2003, pp. 1-23.
E. Hubble, A relation between distance and radial velocity among extra-galactic nebulae, vol. 15, Proceedings of the National Academy of Science USA, 1929, pp.168-173.
L. Ying, Dark Energy is stellar nuclear fusion replicated in a mirrored universe, vol. 4, The Open Astronomy Journal, 2011, pp. 54-56.
V. C. Rubin and W. K. Ford, Rotation of the Andromeda nebula from a spectroscopic survey of emission regions, vol. 159, The Astrophysical Journal, 1970, pp. 379-403.
H. S. Zhao, An ecological approach to problems of dark energy, dark matter, MOND and neutrinos, vol. 140, Journal of Physics Conference Series, 2008, pp. 1-12.
P. Rowlands, Zero to infinity, World Scientific Publishing, 2007.
I. Newton, Philosophiae Naturalis Principia Mathematica, 1687.
A. Einstein, Zur elektrodynamik bewegter korper, 1905.
L. Ying, Anti-antimatter, vol. 13, Journal of Computational Methods in Sciences and Engineering, 2013, pp. 303-305.
L. Ying, Pi is fundamental cosmic frequency in expanding universe, vol. 6, The Open Astronomy Journal, 2013, pp. 7-9.
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