55th Annual Meeting of the APS Division of Atomic, Molecular and Optical Physics
Monday–Friday, June 3–7, 2024;
Fort Worth, Texas
Session B11: V: Precision Measurements and Metrology
10:45 AM–12:21 PM,
Tuesday, June 4, 2024
Room: Virtual Room 1
Chair: Alexey Grinin, Northwestern University, Center for Fundamental Physics
Abstract: B11.00005 : Schwarzschild radius for electric charge
11:33 AM–11:45 AM
Abstract
Presenter:
Yevhen Lunin
(independent researcher)
Author:
Yevhen Lunin
(independent researcher)
The aim of this work is to prove the formula for the Schwarzschild radius analog in case of a static spherically symmetric electric charge. In this paper, the electric charge definition is given. The work contains two elegant proofs of the formula for the gravitational radius and for its analog in the case of an electric charge. The author mathematically proves that the Schwarzschild radius formula should not have a multiplier of 2. Proposed by the author in 2006 the relationship formula between the electric charge and the energy of this electric charge was applied in the proof of the formula for the Schwarzschild radius analog in case of a static spherically symmetric electric charge. And the results are another confirmation of the statement validity about the electric charge equivalence and its energy. An analysis was carried out on the correspondence of the formula for the Schwarzschild radius analog in case of a static spherically symmetric electric charge to the Reissner-Nordström and Schwarzschild solutions results and it is shown that they are in full agreement with each other. The radiation temperature expression is proposed for a spherically symmetric black hole with a static electric charge, but without rotation. An expression is obtained for the particles production probability estimating in a static electric field of a black hole. An expression is obtained for the entropy of a spherically symmetric black hole, due to its electric charge. The author proposes the Coulomb’s law application limit explanation. The author explains the existence possibility of long-lived charged black holes. This work proposes an (thermodynamics, electricity and gravity) formulas converting method, which allows finding unknown dependencies in physics. This work is another step towards the standardization of physics and its formulas and to some general approach in the problems solving from completely different sections of physics.