The determination of the specific masses of the proton, neutron, and electron has long remained an empirical "given" in the Standard Model, lacking a unified algebraic derivation from first principles. This study applies the Schevchenco-Sczepanink V2.0 Framework to demonstrate that these masses are not arbitrary constants, but functional requirements of the Universal Ledger. By employing Ockham’s Razor, we eliminate the need for complex field interactions, instead utilizing the Bruce Lee Unit (Bl=1 kg/m²⋅s) to measure the Unified Flux Density of the vacuum. Following the logic of the Columbus Egg, this proof reveals that the "Strong Force" and "Mass Gap" are emergent properties of the Lavoisier-Leibniz Impedance (Lz) acting upon the Newton-light (Nλ) potential. We provide a definitive derivation showing that: The Proton is a Poliakoff Anchor (Pa) where flux reaches geometric crystallization. The Neutron acts as a Mass Reservoir for latent system liquidity. The Electron represents the Dynamic Change required for transactional orbital equilibrium. Through this Triadic Accounting, the subatomic "zoo" is simplified into a self-correcting fluid system, proving that the vacuum does not "give" mass, but calculates it as a necessary resistance to preserve the continuity of the Einstein-Leibniz Synthesis, which later shall be renamed Einsteinian Equilibrium (Eq) or even Einsteinian Orchestra (Eo), though the later later will be explained in a next version of the document. There are three proposed units that bridge the gap between Chemistry, Physics, and Management: Lz (Lavoisier-Leibniz): The unit of Vacuum Impedance. It quantifies the resistance of the local spacetime to the acceleration of c. Derived from the Law of Conservation of Mass (Lavoisier) and the Law of Continuity (Leibniz, 1989). Nλ (Newton-Light): The unit of Radiant Force. It represents the expansive torque of energy (c²) within the Einsteinian "Light Box," unifying Newtonian mechanics with relativistic expansion. Pf (Poliakoff): The Harmonic Flux Constant. This scalar acts as the "Conversion Bridge," ensuring symmetry during the transformation of mass into energy, preventing mathematical singularities. Here, the second version of the major pre print mentioned Pa (Poliakoff Anchor), so this version will go with either Pf or Pa, though probably it stays Pa, depending on the circumstances.
Gustavo Schevchenco-Sczepanink (Wed,) studied this question.