Algorithmic Energy: An Algorithmic Space–Time Interpretation of Interaction and Gravitation Based on Desmos
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This paper introduces the concept of Algorithmic Energy as a fundamental quantity emerging from the algorithmic evolution of space–time. Building upon the Desmos (Bond) framework, interaction between physical systems is shown to be governed not by mass or force alone, but by energy states regulated through an evolving space–time scaling function. The proposed formulation replaces classical force-based interpretations of gravitation with an energy-driven bond model, capable of explaining local gravitational stability, cosmic expansion, and hierarchical dominance phenomena such as the Earth–Moon versus Moon–Sun system. Algorithmic energy unifies gravitational binding, spacetime curvature, and large-scale cosmological behavior within a single mathematical structure.