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Abstract
This paper proposes Informational Entropic Gravity (IEG), a new derivation of Newton’s gravitational constant G grounded in the Feldt-Higgs Universal Bridge (F–HUB) framework. Rather than treating gravity as fundamental, IEG interprets spacetime curvature as the statistical equilibrium of structured quantum information. By combining entropy-information correspon- dences, holographic boundary conditions, and the Higgs-informational coupling, G is recovered in closed form from known constants without circular assumptions. This informational route unifies entropy, mass, and curvature into a single basis, reframing gravity as an emergent consequence of informational geometry. The result is a dimensionally consistent, testable law that challenges dark placeholders and restores explanatory power to the informational paradigm. If correct, IEG not only situates G within the same architecture as mass and entropy but also signals that gravity itself is evidence of the universe’s informational foundation. Gravity emerges not as a fundamental force but as a statistical equilibrium of structured information.
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Title
Birth of Spacetime: The Feldt-Higgs Universal Bridge (F-HUB) Theory, Part One - A Universal Informational Framework for Mass, Gravity and Entropy
Description
For over a century, physics has been divided between two dominant theories: GR and QM. While both are highly successful, they remain fundamentally disconnected. To address this, the Feldt-Higgs Universal Bridge (F-HUB) introduces a new paradigm. Specifically, it proposes that mass, gravity, and spacetime are not fundamental properties, but instead emerge from structured quantum information. As a result, F-HUB offers a cohesive framework in which mass arises from quantum energy stabilised by information, and gravity becomes an entropic effect; rather than a fundamental force. Moreover, the master equation derived from this model is both dimensionally consistent and thermodynamically grounded. Crucially, it is also testable, offering new experimental pathways that challenge the need for dark matter and dark energy. In summary, by reframing foundational physics through the lens of information, F-HUB provides a unified, modern approach that bridges relativity, thermodynamics, and quantum theory within a single theoretical framework.
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