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| viXra.org > Nuclear and Atomic Physics > 2106 |
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[3] viXra:2106.0151 [pdf] submitted on 2021-06-26 08:53:53
Authors: Gang Chen, Tianman Chen, Tianyi Chen
Comments: 8 Pages. 3 figures.
In our previous papers, we gave many formulas of the fine-structure constant based on some critical nuclide numbers such as 112, 173, 137, 83, 29 and 103. In this paper, we give the general formulas of the fine-structure constant and some formulas of the fine-structure constant based on the 92th element Uranium. These formulas relate to 92U-235/238 and predict 126Ch188 (the most stable isotope of the 126th element).
Category: Nuclear and Atomic Physics
[2] viXra:2106.0065 [pdf] submitted on 2021-06-11 16:40:34
Authors: Ilya Boldov
Comments: 13 Pages.
The influence of the ratio of the number of inter-nucleon bonds per nucleon, as well as the number of even and odd bonds of nucleons in the nucleus on the stability of light nuclei is considered in the framework of the Geometric model. The presence of "magic" nuclei and the division of radioactive materials into unequal fragments by intercluster (He4) bonds are explained. It is concluded that the stability and binding energy of the nuclei can be affected by the centrifugal forces acting on the nucleons.
Category: Nuclear and Atomic Physics
[1] viXra:2106.0038 [pdf] submitted on 2021-06-07 20:04:20
Authors: Norbert Buchholz
Comments: 7 Pages. [Corrections made by viXra Admin to conform with the requirements on the Submission Form]
The lifetime of the neutron is still discussed very controversially, because two different measurement methods give two values, which differ from each other far beyond the standard deviations of the single measurements. In this work, two formulas with slightly modified initial parameters for calculating the lifetime of the neutron were established, each of which agrees with the measured values of the two measurement methods within the error limits. The bases of the calculations suggest that the discrepancy in the measured values is not due to systematic errors in the measurement procedures, but rather that the β-electrons are in an excited state during the beam experiment, which alters the energy balance of the decay process and thus the lifetime of the neutron
Category: Nuclear and Atomic Physics
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