International Journal of Physics
ISSN (Print): 2333-4568 ISSN (Online): 2333-4576 Website: http://www.sciepub.com/journal/ijp Editor-in-chief: B.D. Indu
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International Journal of Physics. 2020, 8(3), 114-119
DOI: 10.12691/ijp-8-3-5
Open AccessArticle

The Real Removal of the Moon from the Earth. The Age of the Universe

José Luís Pereira Rebelo Fernandes1,

1Engineer, University of Porto

Pub. Date: September 07, 2020

Cite this paper:
José Luís Pereira Rebelo Fernandes. The Real Removal of the Moon from the Earth. The Age of the Universe. International Journal of Physics. 2020; 8(3):114-119. doi: 10.12691/ijp-8-3-5

Abstract

Now we know that the constant Moon removal of 3.82+-0.07 “(Nasa information)” cm, per year, from the Earth has a measurement error due to the variation of time to the expansion of the Universe. We already know that time varies in the inverse proportion of the square root of Universal Density of Potential Energy in time “Ref. [1]”, and we also know that the gravitational radius increases because G increases and this increases in the reverse proportion of density of potential energy in time. With this information we will be able to calculate the true value of the removal of the Moon from Earth and thus calculate how many years it took for the Moon to be at a distance that is now.

Keywords:
universe gravitation potential gravity velocity mass physics variable

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References:

[1]  José Luís Pereira Rebelo Fernandes, The Relativity of the Time with the Universal Density of Potential Energy at Different Stationary Reference Frames, International Journal of Physics. 2020, 8(1), 11-13.
 
[2]  José Luís Pereira Rebelo Fernandes, The Universal Gravitational Variable, International Journal of Physics. 2020, 8(1), 35-38.
 
[3]  Lago, Teresa Descobrir o Universo, Gradiva, junho de 2006.
 
[4]  Crawford, Paulo. «A Teoria da Relatividade e o 'Global Positioning System' (GPS)» (PDF). Universidade de Lisboa. Consultado em 18 de fevereiro de 2016. Cópia arquivada (PDF) em 5 de novembro de 2013.
 
[5]  Selleri, F, Lessons of relativity, from Eisntein to the ether of Lorentz, Edições Duarte Reis e Franco Selleri, 2005, 227.
 
[6]  Deus, J.D, Pimenta, M, Noronha,A, Peña, T and Brogueira, Introdução à Física, Introduction to Physics, Mc. Graw-Hill, 2000, 633.
 
[7]  Eisberg, R, Resnick, , Quantum Physics of atoms, molecules, solids, nuclei, and particles, Elsevier, 1979, 928
 
[8]  N. Ashby, Relativity in the Global Positioning System, Living Rev. Relativity 6 (2003)
 
[9]  Taylor, J.H., “Binary Pulsars and Relativistic Gravity”, Rev. Mod. Phys., 66, 711-719, (1994).
 
[10]  J. Natário, General Relativity Without Calculus, Springer (2011).
 
[11]  M.G.M. de Magalhães, D. Schiel, I.M. Guerrini e E. Marega Jr., Revista Brasileira de Ensino de Física 24, 97 (2002).
 
[12]  E.C. Ricardo, J.F. Custódio e M.F. Rezende Jr., Revista Brasileira de Ensino de Física 29, 137 (2007).
 
[13]  Measuring the Moon's Distance: Apollo Laser Ranging Experiments Yield Results https://eclipse.gsfc.nasa.gov/SEhelp/ApolloLaser.html.
 
[14]  Lunar laser ranging: the millimeter challenge, T W Murphy, Rep. Prog. Phys.76 (2013) https://tmurphy.physics.ucsd.edu/papers/rop-llr.pdf.
 
[15]  Lunar Geophysics, Geodesy, and Dynamics, James G. Williams and Jean O. Dickey, 2002 https://ilrs.cddis.eosdis.nasa.gov/docs/williams_lw13.pdf.