Saved in:
Bibliographic Details
Main Author: Huang, Binggang
Format: Recurso digital
Language:
Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.18510098
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866901502592811008
author Huang, Binggang
author_facet Huang, Binggang
contents <p>Based on the core paradigm of "Physics is Geometry" in Zhang Xiangqian's Unified Field Theory (UFT), this paper systematically constructs and elaborates a geometric theory that unifies fundamental physical concepts. Starting from the cylindrical helical motion of light speed in the spacetime background, it provides a unified interpretation of mass, positive and negative charges, universal gravity and positive/negative gravity, quantum spin, black hole event horizons, and the fine-structure constant.First, mass is defined as the manifestation of spacetime vibration frequency (m=ℏω/c^2 ) and categorized into three levels: geometric intrinsic mass, standard static mass, and dynamic mass. Second, charge is interpreted as the geometric expression of mass change rate (q=k dm/dt ), with its sign originating from the asymmetry between acceleration and deceleration phases in spacetime motion patterns.Furthermore, gravity is interpreted as the geometric perturbation of spacetime by net charge at macroscopic scales, while the symbiosis of electrons and protons and their chiral symmetry breaking stem from the dynamic equilibrium mechanism spacetime activates to maintain local stability. Additionally, this paper derives the fine-structure constant purely geometrically from three-dimensional spacetime symmetryα=1/(4π^3+π^2+π) , revealing its essence as an intrinsic property of spacetime.Finally, based on the critical condition for spacetime geometric stability (θ=45^∘ ), this work unifies the derivation of characteristic factors in electron spin (ℏ/2 ) and the Schwarzschild radius of black holes (R_s=2GM/c^2 ), achieving a geometric unification of microscopic quantum structures and macroscopic gravitational critical phenomena. This theory is mathematically self-consistent, exhibits high experimental agreement, and smoothly recovers existing physical theories under corresponding limits, providing a novel geometric perspective for understanding the unified origin of fundamental interactions in nature.</p> <p><strong>Author:</strong> Huang Binggang<br><strong>Framework:</strong> Zhang Xiangqian’s Unified Field Theory (UFT)<br><strong>Keywords:</strong> Unified Field Theory; Geometric Physics; Mass Origin; Electric Charge; Gravity; Fine-Structure Constant; Spin; Black Hole Event Horizon</p> <p><strong>Submitter note:</strong><br>The sole author of this paper is <strong>Huang Binggang</strong>. The submitter, <strong>Lynn Lou Beran</strong>, served solely as editor and submitter, with contributions limited to formatting, and organizational clarity; all theoretical content and scientific claims remain the responsibility of the author.</p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_18510098
institution Zenodo
language
publishDate 2026
publisher Zenodo
record_format zenodo
spellingShingle Zhang Xiangqian's Unified Field Theory: Quality, 1 , Positive and Negative Charges, Positive and Negative Gravity, and Spin Unified Derivation
Huang, Binggang
<p>Based on the core paradigm of "Physics is Geometry" in Zhang Xiangqian's Unified Field Theory (UFT), this paper systematically constructs and elaborates a geometric theory that unifies fundamental physical concepts. Starting from the cylindrical helical motion of light speed in the spacetime background, it provides a unified interpretation of mass, positive and negative charges, universal gravity and positive/negative gravity, quantum spin, black hole event horizons, and the fine-structure constant.First, mass is defined as the manifestation of spacetime vibration frequency (m=ℏω/c^2 ) and categorized into three levels: geometric intrinsic mass, standard static mass, and dynamic mass. Second, charge is interpreted as the geometric expression of mass change rate (q=k dm/dt ), with its sign originating from the asymmetry between acceleration and deceleration phases in spacetime motion patterns.Furthermore, gravity is interpreted as the geometric perturbation of spacetime by net charge at macroscopic scales, while the symbiosis of electrons and protons and their chiral symmetry breaking stem from the dynamic equilibrium mechanism spacetime activates to maintain local stability. Additionally, this paper derives the fine-structure constant purely geometrically from three-dimensional spacetime symmetryα=1/(4π^3+π^2+π) , revealing its essence as an intrinsic property of spacetime.Finally, based on the critical condition for spacetime geometric stability (θ=45^∘ ), this work unifies the derivation of characteristic factors in electron spin (ℏ/2 ) and the Schwarzschild radius of black holes (R_s=2GM/c^2 ), achieving a geometric unification of microscopic quantum structures and macroscopic gravitational critical phenomena. This theory is mathematically self-consistent, exhibits high experimental agreement, and smoothly recovers existing physical theories under corresponding limits, providing a novel geometric perspective for understanding the unified origin of fundamental interactions in nature.</p> <p><strong>Author:</strong> Huang Binggang<br><strong>Framework:</strong> Zhang Xiangqian’s Unified Field Theory (UFT)<br><strong>Keywords:</strong> Unified Field Theory; Geometric Physics; Mass Origin; Electric Charge; Gravity; Fine-Structure Constant; Spin; Black Hole Event Horizon</p> <p><strong>Submitter note:</strong><br>The sole author of this paper is <strong>Huang Binggang</strong>. The submitter, <strong>Lynn Lou Beran</strong>, served solely as editor and submitter, with contributions limited to formatting, and organizational clarity; all theoretical content and scientific claims remain the responsibility of the author.</p>
title Zhang Xiangqian's Unified Field Theory: Quality, 1 , Positive and Negative Charges, Positive and Negative Gravity, and Spin Unified Derivation
url https://doi.org/10.5281/zenodo.18510098