What question did this study set out to answer?

The study aims to present a unified framework that reconciles various anomalies in modern physics using the Mass Curvature Rate concept.

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February 22, 2026Open Access

MUT v6.22: The Mass Curvature Rate (MCR) Unified Framework – Resolving Fundamental Paradoxes of Modern Physics

Key Points

The study aims to present a unified framework that reconciles various anomalies in modern physics using the Mass Curvature Rate concept.
Developed the Mass Curvature Rate framework based on first principles.
Introduced a dynamic scalar resonance field coupling to spacetime curvature.
Conducted Python simulations for analyzing galaxy rotation curves.
Resolved anomalies like the Hubble tension and proton radius discrepancy.
Showed mathematical consistency and covariant nature of the framework.
Produced predictions that can be tested for observable implications.

Abstract

This paper presents the Mass Curvature Rate (MCR) framework as a first-principles unification of gravity, mass, and quantum effects. The dynamic scalar resonance field ϕ(xµ) couples to spacetime curvature, resolving modern physics anomalies such as the Hubble tension, proton radius discrepancy, galaxy rotation curves, black hole singularities, and the Big Bang. The framework is mathematically consistent, covariant, falsifiable, and capable of producing observable predictions. Optional energy applications are also discussed, including mass-to-energy extraction via scalar resonance. Python simulations for galaxy rotation curves are provided.

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