Generation of a substance with negative mass
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Abstract
An analysis of known experiments was carried out to determine the dependence of the mass of electrons on their speed. Errors were discovered in determining the sign of the electron mass. It is shown that at electron velocities above the critical ω = 235696.8871 km/s their masses are negative. The results obtained are explained on the basis of the Principle of Nonequivalence of inertial and gravitational masses since inertial mass can only be positive, and gravitational mass can only be positive or negative The purpose of this work is to show that since radioactive substances can emit electrons with negative mass at velocities above ω, they can be a source of their production.
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Golovkin BG. Negative mass is a component of the Universe. Noosphere. Society. Human. 2019; 1:40. http://noocivil.esrae.ru/259-1903.
Terletsky YP. Paradoxes of the theory of relativity. Electronic edition: Almanac “Thoughts About Truth”. Release date 2015-11-07; ISBN 9984-688-57-7: 76.
Golubev SM. Quasicrystalline structure of vacuum. The key to unraveling the mystery of living cells and quantum particles. M. Book House. "LIBROCOM". 2014; 262: ISBN 978-5-397-04422-6.
Lobanovsky MG. Foundations of natural physics. M. "Higher School". 1990; ISBN 5-06-000535-6:262.
Golovkin BG. A substance with negative mass. Ann Math Phys. 2023; 6:2; 119-125. https://dx.doi.org/10.17352/amp.000091.
Golovkin BG. Newton's Second Law in Special Theory of Relativity. Journal of Physics & Optics Sciences. 2022. SRC/JPSOS/199. DOI: doi.org/10.47363/JPSOS/2022(4)173.
Repchenko ON. Field physics or how the World works? M.: Gallery. 2008; 320: ISBN 978-5-8137-0150-8.
Thomson JJ. The corpuscular Theory of Mutter. London. 1907.
Kaufmann W. The magnetic and electrical deflectability of the Bequerel rays and the apparent mass of the electrons. Göttingen News. 1901; 2:143 -168.
Kaufmann W. The electromagnetic mass of the electron. Physical journal. 1902; 4 (1b):54-57.
Kaufmann W. About the constitution of the electron. Annals of Physics. 1906; 19:487–553.
Malkovsky GP. On mass and energy in modern physics. Ed. Kazan University. 1961; 180.
Zavelsky FS. Mass and its measurement. M. Atomizdat. 1974; 240.
Shpolsky EV. Atomic physics. V. 1. Ed. "Science" Ch. ed. PHYSMATLIT. M. 1974; 576.
Kovner MA. Electronic theory and theory of relativity. Ed. Saratov University. 1967; 296.
Guye CE, Lavanchy C. Experimental verification of the Lorentz-Einstein formula using high-speed cathode rays. Archives of Physical and Natural Sciences of Geneva.1916; 42:286–299 & 353–373 & 441–448.
Guye CE, Ratnowsky S. Experimental determination of the variation in inertia of cathode corpuscles as a function of Speed. Archives of Physical and Natural Sciences of Geneva.1911; 31:293-321.
Karim Y. Towards an experimental verification of the theory of special relativity: replication of the experiments of Charles-Eugène Guye (1907-1921). Other [q-bio.OT]. Claude Bernard University - Lyon I; University of Geneva. 2011. French. ffNNT: 2011LYO10089ff. fftel-00839315f.
Zahn CT, Spees AH. An improved method for the determination of the specific charge of beta-particles. Physical Review. 1938; 53:5;357-365.
Zahn CT, Spees AH. Specific charge of decaying radium electrons. E. Physical Review. 1938; 53:5; 365-372. https://doi.org/10.1103/PhysRev.53.365
Rogers MM, McReynolds AW, Rogers FT. A Determination of the Masses and Velocities of Three Radium B Beta-Particles. Physical Review. 1940; 57: 379–383. http://ivanik3.narod.ru/Vacuum/p379_1Rogers.pdf
Golovkin BG. New Particle Mechanics with Negative Mass. WSN. 2019; 126:283-290.
Treder HJ. Gravity theory and equivalence principle. Akademie-Verlag-Berlin. 1971.
Buchholz NN. Basic course of theoretical mechanics. Part I. Ed. "The science". Ch. Ed. PHYSMATLIT. M. 1972; 345:468.
Golovkin BG. Gravitational interactions of bodes from the point of view of different principles of equivalence. WSN. 2020; 141:48-65.