Title: Algorithmic Freefall: The Discrete Engine of Classical Mechanics: Resolving Quarks, Gravity, and Kinematic Saturation via Algorithmic Spatial Deletion Author: Marco Lindenbeck Description: Standard physics models reality as a reductionist hierarchy of nested particles—quarks inside nucleons, nucleons inside nuclei—ultimately governed by the isolated macroscopic force of gravity. Consequently, standard models rely on continuous parameters (such as Mass and Newton's Gravitational Constant, G) to calculate freefall, offering no mechanical explanation for why local gravity acts as a strict spatial acceleration. This paper formally excises the concept of continuous fundamental mass from theoretical physics, proving that subatomic physics and cosmic gravitation are strictly governed by a singular, discrete algorithmic tessellation protocol (=50). Rather than discarding classical mechanics, the GLR (Omega Grounded Light Reality) framework vindicates the deterministic intuition of its pioneers by providing the exact discrete hardware architecture required to execute their macroscopic equations. By analyzing the universe as a finite-capacity Information-Stability System, this paper mathematically reconstructs reality from the inside out: The Reclassification of the Neutron: The neutron is fundamentally redefined from a baseline particle to a 1-node boundary tether between adjacent metric cells. This structural geometry seamlessly derives the neutron's exact mass overflow and accurately maps the empirical latency of Beta decay as a mandatory network timeout. The Geometric Illusion of Quarks: Quarks are mathematically dismantled. They are not subatomic point-particles; they are the internal 2D planar (+2/3) and 1D linear (-1/3) geometric routing vectors required to stabilize the structural tension of a localized spatial cell. Algorithmic Freefall (g_): Gravity is permanently reclassified from an invisible pulling force to the Master Regulatory Protocol of a discrete network. The local 9. 81 m/s² freefall of Earth is derived strictly from first principles as the algorithmic spatial deletion rate required to safely manage 3. 57 10^51 discrete structural nodes without triggering a localized Bekenstein hardware crash. The Engine of Classical Mechanics: The framework extends its algorithmic freefall protocol to provide the discrete hardware underlying textbook classical physics. Orbital velocity (weightlessness) is mathematically parameterized as a Kinematic Transverse Bypass of the spatial deletion queue, and aerodynamic terminal velocity is flawlessly derived as pure Routing Friction Saturation, proving that classical fluid dynamics and aerodynamic drag are perfectly calibrated macroscopic approximations of pure node-to-node data routing. From the internal structural geometry of a single quark to the macroscopic freefall of an orbiting satellite, this paper demonstrates that the universe is governed by a singular, parameter-free topological processor.
Marco Lindenbeck (Thu,) studied this question.