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General Relativity in the Planck Vacuum Theory
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Submitted 2022-05-28
Published 2022-08-17
Published 2022-08-17
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This short paper compares the classical Newton gravitational equation to the Einstein curvature tensor and shows that the two are intimately related. The calculation expands the Newton force to be more in line with the Einstein and Schwarzschild tensors.
References
-
Davies P. Superforce: the Search for a Grand Unified Theory of Nature. Simon and Schuster, Inc., New York, 1984.
Google Scholar
1
-
Daywitt W.C. The Planck Vacuum, Progress in Physics, v. 1, 20, 2009. (see also www.planckvacuumDOTcom)
Google Scholar
2
-
Daywitt W.C. The Trouble with the Equations of Modern Fundamental Physics. American Journal of Modern Physics. Special Issue: “Physics without Higgs and without Supersymmetry”, 2016;5(1-1):22.
Google Scholar
3
-
Daywitt W.C. Comparing the Planck-Vacuum and the Urantia-Book Depictions of the Seven-Dimensional Spacetime. European Journal of Engineering Research and Science,2020;5(12).
Google Scholar
4
-
Carroll B.W., Ostlie D.A. An Introduction to Modern Astrophysics. (Addison-Wesley, San Francisco, Boston, New York, Cape Town, Hong Kong, London, Madrid, Mexico City, Montreal, Munich, Paris, Singapore, Sidney, Tokyo, Toronto, 2007).
Google Scholar
5
-
Daywitt W.C. The Source of the Gravitational Constant for the Dirac Cores in the Planck Vacuum Theory. European Journal of Applied Physics, 2022;4(3).
Google Scholar
6
-
Misner C.W., Thorne K.S., Wheeler J.A. Gravitation, W.H. Freeman and Co., San Francisco, 1973.
Google Scholar
7
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