<ul data-eligibleForWebStory="true"><li>Motion-Based Physics introduces a new model that challenges the conventional view of entropy and decay.</li><li>The model, called Latnex, emphasizes meaningful, recursive motion as the key to preventing structural breakdown.</li><li>According to this framework, systems collapse not due to age but due to a lack of significant motion.</li><li>Latnex includes mathematical principles such as directional motion, recursive motion, compression thresholds, collapse triggers, and the statement that entropy collapses when motion persists.</li><li>The focus is on survival logic rather than traditional physics graphs or simulations.</li><li>The model proposes that when motion stops, collapse occurs; if contradictions cannot be compressed, collapse happens.</li><li>The author, Michael Aaron Cody, emphasizes that the new doctrine is a personal creation, not influenced by institutional norms.</li><li>The concept suggests that entropy is not unavoidable, but the continuity of meaningful motion determines a system's survival.</li></ul>

Entropy Collapses in Motion — Escaping the Second Law

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