From newton to universal planck natural units – disentangling the constants of nature

IF 1.1 Q3 PHYSICS, MULTIDISCIPLINARY

Journal of Physics Communications Pub Date : 2023-10-05 DOI:10.1088/2399-6528/ad0090

Andrew Wutke

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Abstract

Abstract This study exploits a historical gap in the evolution of metric systems that resulted from incomplete implementation of the “rationalization” concept published by Heaviside in 1893 and ignoring the suggestion of Maxwell in 1873 to use the simplest form of Newton’s gravitational law expression with no proportionality constant. Bridging this gap required deriving an experimental Rationalized Metric System (RMS) and a corresponding Universal Planck Natural Unit System (UPNUS) in [ LT ] units.The described solution combines Heaviside’s rationalization of Newton’s law and makes the unit of mass dimensions [L 3 T −2 ], as suggested by Maxwell. Consequently the modified Coulomb’s law, changes the unit of the electric charges to the same dimensions as those of the mass. The elimination of the kilogram and ampere has a disentangling effect on the dependencies among the constants of nature and opens new horizons. The new systems have the potential to become powerful exploratory tools in fundamental research and education because of the simplification of the relationships among physical quantities. Noteworthy highlights from analyzed examples include the following: The well-known expression for Stoney mass ( m S ) when converted to RMS units is reduced to the electron charge quantity, whereas traditional metric systems entangle the charge, speed of light, and gravitational constant, forming an entity in the dimension of mass, as first presented by Stoney in 1874. A well-substantiated conjecture is proposed, wherein the Stoney energy E S =m S c 2 is nothing but the long-sought, finite electric field energy of the electron, and the gravitational constant appears to be the limiting factor. In UPNUS, the most disentangled fundamental expression, apart from the Stoney mass, is the elementary charge ӗ as the function of the fine structure constant α and the Planck mass( m̆ P ̌): ӗ = m̆ P √α ≈1.073 476 with ӗ , m̆ P of [L 3 T −2 ] dimensions in Planck units, and m̆ P = 4π

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从牛顿到普朗克自然单位——解开自然常数的纠缠

摘要:本研究利用了公制系统发展的历史空白，这一空白是由于对Heaviside在1893年发表的“合理化”概念的不完全实现，以及忽视了麦克斯韦在1873年提出的使用牛顿万有引力定律最简单形式的无比例常数表达式的建议。弥合这一差距需要推导出一个实验性的合理化公制(RMS)和相应的[LT]单位普朗克自然单位制(UPNUS)。所描述的解结合了Heaviside对牛顿定律的合理化，并使质量维度的单位[L 3 T−2]，正如麦克斯韦所建议的那样。因此，修正后的库仑定律将电荷的单位改为与质量的单位相同的尺寸。千克和安培的消除对自然界常数之间的依赖关系产生了解缠作用，并开辟了新的视野。由于简化了物理量之间的关系，新系统有可能成为基础研究和教育中强大的探索工具。从分析的例子中，值得注意的亮点包括:众所周知的斯通质量(m S)在转换为均方根单位时被简化为电子电荷量，而传统的公制系统将电荷、光速和引力常数纠缠在一起，形成一个质量维度的实体，这是斯通在1874年首次提出的。提出了一个充分证实的猜想，其中斯通能E S =m S c 2只不过是长期寻找的有限电子电场能量，而引力常数似乎是限制因素。在UPNUS中，除Stoney质量外，最解离的基本表达式是基本电荷δ作为精细结构常数α和普朗克质量(m > P _)的函数:δ = m > P√α≈1.073 476，其中δ， m > P为[L 3 T−2]普朗克单位，m > P = 4π

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来源期刊

Journal of Physics Communications PHYSICS, MULTIDISCIPLINARY-

CiteScore

2.60

自引率

0.00%

发文量

114

审稿时长

10 weeks