相对论观察者:时空线性膨胀的结果

J. Integr. Des. Process. Sci. Pub Date : 2022-12-13 DOI:10.3233/jid-210033

Frank M. Skidmore, M. Tanik

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引用次数: 0

摘要

在一篇论文中定义的通信动力学理论提供了一种理解时空的新方法。在通信动力学理论中，物理现实被认为是由一维通信网络的各向异性扩展产生的。在本文中，我们对该理论进行了一次近似数学变换，将其转化为双曲几何。由此产生的模型提供了一个潜在的基础，以发展有关以前知之甚少的物理基本常数的见解。作为演示，我们定义了质子、中子和电子，演示了可观测空间和时间的出现，并产生了欧拉数、精细结构常数和π的启发式估计，以及自然基本力的几何描述，这些都是时空线性动态膨胀的自然结果。

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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THE RELATIVISTIC OBSERVER: Consequences of a Linear Expansion of Spacetime

Communication Dynamics Theory, defined in a companion paper, offers a new approach to understanding Spacetime. In Communication Dynamics Theory, physical reality is assumed to arise from an anisotropic expansion of a one-dimensional communication network. In this paper, we perform a first approximation mathematical transformation of the theory into hyperbolic geometry. The resulting model provides a potential basis for developing insight pertaining to previously poorly understood fundamental constants of physics. As a demonstration, we define a proton, neutron, and electron, demonstrate the emergence of observable space and time, and generate heuristic estimates of Euler’s number, the fine structure constant, and π, as well as geometric descriptions of fundamental forces of nature, occurring as natural consequences of the linear dynamic expansion of Spacetime.

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J. Integr. Des. Process. Sci.

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