Impact of Relativity on the Theoretical Limit for the Periodic System of Elements beyond Uranium

Proceedings of the 2022 5th International Conference on Mathematics and Statistics Pub Date : 2022-06-17 DOI:10.1145/3545839.3545861

Talal Al-Ameen, Imad Muhi, Maythem Mahmud

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Abstract

In the periodic table of elements there cannot be elements lighter than hydrogen, but there can be elements heavier than uranium. Presently about 26 transuranic are known. When atoms’ nuclei get heavier, more protons in the nucleus mean more Coulomb force pulling the inner most electrons in, so the electrons orbiting the heavy nuclei have to go faster and faster, reaching speeds that are a substantial fraction of the speed of light. At such high speeds, the electrons become “relativistic,” and the atoms behave differently from what is expected based on their position in the periodic table. Calculations for hydrogen-like atom show that the electrons would have to travel faster than light for atoms with atomic number , which is impossible. This paper questions the validity of incorporating Einstein's relativistic mass well-known formula, , to answer the long standing question of ‘Is there a maximum number of elements corresponding to a theoretical limit for the periodic system?’ We show here that Einstein's most celebrated equation holds if, and only if, the photon is conceived to be mass-ive.

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相对论对铀以外元素周期系统理论极限的影响

元素周期表中不可能有比氢轻的元素，但可能有比铀重的元素。目前已知的超铀元素约有26种。当原子核变得更重时，原子核中更多的质子意味着更多的库仑力将内部的大多数电子拉进来，所以绕重原子核运行的电子必须越来越快，达到光速的很大一部分。在如此高的速度下，电子变得“相对论性”，原子的行为与基于它们在元素周期表中的位置所预期的不同。对类氢原子的计算表明，对于具有原子序数的原子，电子必须比光传播得快，这是不可能的。本文质疑用爱因斯坦的相对论质量公式来回答一个长期存在的问题的有效性，即“是否存在与周期系统的理论极限相对应的最大元素数量?”“我们在这里证明，爱因斯坦最著名的方程成立，当且仅当光子被认为是有质量的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 2022 5th International Conference on Mathematics and Statistics

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