This publication presents a symbolic and computational theory of Earth's formation, highlighting its rotational dynamics, translational motion, and the lunar genesis event. Through a set of heuristic simulations, STL 3D models, and vector-based impact logic, we explore how Earth evolved from a static Proto-body into a dynamic planet with axial tilt and elliptical orbit.The Moon, in this theory, emerges not as a captured object but as a mass split from Earth itself — synchronized through mutual gravitational locking.This approach blends astrophysics with a quantum-forging mindset, generating a new layer of planetary interpretation built upon simulation artifacts, impact trajectories, and visual geometry. The files include full STL models of Earth, Moon, and Proto-Earth, as well as CSV logs and illustrative diagrams used throughout the research process.This reconstruction does not seek to replace classical models but to augment understanding through symbolic precision.
Jorge Leamdro Ferreira Costa (Sat,) studied this question.
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