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Main Author: Daniyal, Arib
Format: Recurso digital
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Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.20381842
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author Daniyal, Arib
author_facet Daniyal, Arib
contents <p>The <em>Unified Gravitational Convergence Hypothesis</em> is a speculative theoretical framework proposing that black holes and white holes may be dynamically connected through evolving spacetime curvature and wormhole-like structures. The hypothesis suggests that as the singularity of a black hole continuously absorbs mass and energy, the increasing gravitational density may induce a downward curvature instability within spacetime itself. This instability could generate a coupled upward displacement effect, giving rise to linked black hole–white hole systems connected through a transitional wormhole region.</p> <p>According to the hypothesis, the singularity is not treated as a perfectly static point of infinite density, but rather as a dynamic and evolving gravitational state influenced by accumulated mass, curvature interactions, and nonlinear instability thresholds. As the singularity approaches a critical mass condition, spacetime geometry may undergo a convergence process capable of restructuring surrounding gravitational fields.</p> <p>The framework further proposes that black holes and white holes may gradually move toward one another through this convergence mechanism, eventually forming a larger stabilized celestial structure accompanied by intense spacetime distortion and gravitational wave emission.</p> <p>Mathematically, the model introduces a dynamic convergence function intended to describe the relationship between absorbed mass, wormhole coupling energy, curvature interaction coefficients, and instability behavior under extreme gravitational conditions. The hypothesis remains speculative and is currently intended as a conceptual extension inspired by general relativity, wormhole physics, and singularity behavior.</p> <p>This work does not claim experimental verification, but instead aims to provide a conceptual foundation for further mathematical analysis, computational simulation, and theoretical refinement regarding the evolution of extreme spacetime structures.</p>
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institution Zenodo
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publishDate 2026
publisher Zenodo
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spellingShingle Unified Gravitational Convergence Hypothesis
Daniyal, Arib
<p>The <em>Unified Gravitational Convergence Hypothesis</em> is a speculative theoretical framework proposing that black holes and white holes may be dynamically connected through evolving spacetime curvature and wormhole-like structures. The hypothesis suggests that as the singularity of a black hole continuously absorbs mass and energy, the increasing gravitational density may induce a downward curvature instability within spacetime itself. This instability could generate a coupled upward displacement effect, giving rise to linked black hole–white hole systems connected through a transitional wormhole region.</p> <p>According to the hypothesis, the singularity is not treated as a perfectly static point of infinite density, but rather as a dynamic and evolving gravitational state influenced by accumulated mass, curvature interactions, and nonlinear instability thresholds. As the singularity approaches a critical mass condition, spacetime geometry may undergo a convergence process capable of restructuring surrounding gravitational fields.</p> <p>The framework further proposes that black holes and white holes may gradually move toward one another through this convergence mechanism, eventually forming a larger stabilized celestial structure accompanied by intense spacetime distortion and gravitational wave emission.</p> <p>Mathematically, the model introduces a dynamic convergence function intended to describe the relationship between absorbed mass, wormhole coupling energy, curvature interaction coefficients, and instability behavior under extreme gravitational conditions. The hypothesis remains speculative and is currently intended as a conceptual extension inspired by general relativity, wormhole physics, and singularity behavior.</p> <p>This work does not claim experimental verification, but instead aims to provide a conceptual foundation for further mathematical analysis, computational simulation, and theoretical refinement regarding the evolution of extreme spacetime structures.</p>
title Unified Gravitational Convergence Hypothesis
url https://doi.org/10.5281/zenodo.20381842