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Abstract
Quantum entanglement is a group of particles that interact indirectly with other particles that are close or distant in space. As for qualitative entanglement, it is social and cosmic phenomena that are close or distant in space and also interact indirectly with similar phenomena. Our interpretation is that cosmic events are mostly coordinated in advance, similar to movie scenes, and that the universe exists within other concentric universes. Descition Quantum entanglement is that a particle rotates clockwise so that it is physically linked, no matter how far apart, to another particle that rotates counterclockwise, meaning that the total spin is zero. Einstein and his ilk went to the impossibility of such quantum behavior and described it as a ghostly action from a distance, but they differed. Rather, they proved that the interpretations of quantum mechanics are realistic and that the effect between particles separated by enormous astronomical distances occurs instantaneously, such that the speed of light cannot explain it. This was captured by researchers from the University of Glasgow in the year. The first image of quantum entanglement is known as entanglement, and it is hoped that such entanglement will contribute to advancing communications and computing. On our part, we can add that entanglement is to make two similar things have a kind of difference, but there is a strong connection between them. Particles are usually identical, but the difference is in the opposite rotation of each of them, and the connection is in these opposite particles. We have found similarity in the attraction between things, each of which has mass and attracts the other, and this is the connection. The law of gravity is subject to a mathematical law, and it is the one who lacks something that does not give it. If there is nothing on Earth similar to what is on the moon, then there cannot be an attraction between them. We can call it gravitational entanglement. There is an equivalent entanglement represented by the equivalence of energy and mass E=mc^2.
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References
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- Philadelphia: Society for Industrial and Applied Mathematics, 2023.
References
Allison, Graham. Nuclear Terrorism: The Ultimate Preventable Catastrophe, 1st ed. New York: Times Books/ Henry Holt and Company, 2004.
Ayyub, Bilal M. Elicitation of Expert Opinions for Uncertainty and Risks. Boca Raton, FL: CRC Press, 2001.
Bunn, Matthew. “Guardians at the Gates of Hell: Estimating the Risk of Nuclear Theft and Terrorism—And Identifying the Highest-Priority Risks of Nuclear Theft.” PhD thesis, MIT, 2007.
Cimbala, Steven, and James Scouras. A New Nuclear Century: Strategic Stability and Arms Control. Westport, CT: Praeger Publishers, 2002.
Frankel, Michael, James Scouras, and Antonio DeSimone. Assessing the Risk of Catastrophic Cyber Attack: Lessons from the Electromagnetic Pulse Commission. Laurel, MD: Johns Hopkins University Applied Physics Laboratory, 2015.
Frankel, Michael, James Scouras, and George Ullrich. The Uncertain Consequences of Nuclear Weapons Use.
Laurel, MD: Johns Hopkins University Applied Physics Laboratory, 2015.
Garwin, Richard L. Testimony before the Energy and Water Development Subcommittee of the House Appropriations Committee. 2007.
Hahn, Erin, and James Scouras. Responding to North Korean Nuclear First Use: So Many Imperatives, So Little Time. Laurel, MD: Johns Hopkins University Applied Physics Laboratory, forthcoming.
Hegland, Corine, and Greg Webb. “The Threat.” National Journal 37, no. 16 (2005): 1138–1145. Hellman, Martin. “Risk Analysis of Nuclear Deterrence.” The Bent of Tau Beta Pi 99 (2008): 14–22.
Ice, Lauren, James Scouras, Kelly Rooker, Robert Leonhard, and David McGarvey. Game Theory and Nuclear Stability in Northeast Asia. Laurel, MD: Johns Hopkins University Applied Physics Laboratory, 2019.
Ice, Lauren, James Scouras, and Edward Toton. Wartime Fatalities in the Nuclear Era. Laurel, MD: Johns Hopkins University Applied Physics Laboratory, forthcoming.
Konopinski, E., C. Margin, and E. Teller. Ignition of the Atmosphere with Nuclear Bombs. Report LA-602.
Kristof, Nicholas D. “An American Hiroshima.” New York Times, August 11, 2004. https://www.nytimes. com/2004/08/11/opinion/an-american-hiroshima.html.
Philadelphia: Society for Industrial and Applied Mathematics, 2023.