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2018 | 98 | 115-126
Article title

Expansion of the Universe and Cosmic Microwave Background Correlation and Detecting Deficient Energy Photons

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The Conservation of Energy and Conservation of Momentum was balanced in 2016 for the first time, from the perspective of the reflector, to the authors knowledge, when motion of a reflector results after a reflection. The method used for balancing the conservation laws was applied to the model of the Expansion of the Universe and a direct correlation to the peak wavelengths of the Cosmic Microwave Background was determined and associated with the maximum velocities of the Expansion of the Universe model. The method also indicates there may be more celestial bodies moving toward an observer than what is currently observed through modern telescopes. An experimental setup is presented, but not tested, that may be able to view an increase of celestial bodies compared to what is currently observed through modern telescopes.
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  • 5295 Toscana Way #714, San Diego, California 92122, USA
  • [1] Fowles, G. R. (1975). Introduction to modern optics. Dover Publications, INC, New York.
  • [2] Kipping, D. (2017). Relativistic Light Sails. The Astronomical Journal, 153(277), 9 pp.
  • [3] Tambunga, G. J. (2013). The Doppler Factor and Quantum Electrodynamics Basics in Laser-Driven Light Sailing. International Letters of Chemistry, Physics and Astronomy, 14, 10-14.
  • [4] Tambunga, G. J. (2017). General relativity, quantum behavior and Doppler factor basics in laser-driven light sailing and solar sailing. BIBECHANA, A Multidisciplinary Journal of Science, Technology and Mathematics 14, 9-15. DOI:
  • [5] Tambunga, G. J. (2017). SOURCE’S and SINKs in Phases of Matter. World Scientific News, 70(2), 189-200.
  • [6] Freedman, W. L., Madore, B. F., Scowcroft, V., Burns, C., Monson, A., Persson, S. E., ... & Rigby, J. (2012). Carnegie Hubble program: a mid-infrared calibration of the Hubble constant. The Astrophysical Journal, 758(1), 24.
  • [7] Hubble, E. (1929). A relation between distance and radial velocity among extra-galactic nebulae. Proceedings of the National Academy of Sciences, 15(3), 168-173.
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