E=mc² Evolved: The Tesseract Recursive Formula and Its Implications
This paper presents a groundbreaking expansion of Einstein's mass-energy equivalence principle through the Tesseract Recursive Formula. By projecting the space-time continuum onto a 13-dimensional manifold, denoted as H¹³, this framework reveals hidden dimensions and explores the interplay of mass, energy, force, and curvature in higher-dimensional spaces. The formula extends traditional physics by introducing a dynamic relationship between energy and force, modifying Einstein’s famous E=mc² to account for the influence of higher dimensions. The paper also provides a detailed mathematical derivation that generates a working tesseract, explaining how this structure emerges from the recursive interaction of mass and energy across the 13-dimensional continuum. Key areas of potential application include quantum mechanics, advanced data storage, energy solutions, and space exploration. This research opens the door to a new frontier of scientific discovery, challenging our current understanding of reality and offering transformative possibilities for the future of technology and space-time theory. Key Highlights: Introduction of the 13th dimensional framework (H¹³) Modification of E=mc² for higher-dimensional interactions Mathematical derivation of a working tesseract Exploration of practical applications in physics, engineering, and beyond. Find the full Publication here.