This document presents a unified theoretical framework integrating gravitational andquantum mechanics through rst principles examination of inverse square lawrelationships. Derived entirely from direct observation without prior background ininformation theory or formal physics, the framework emerges from analysis of theelectron field (4 underlying parameters) and gravitational eld (7+ underlyingparameters), where eld strength differences arise from substrate parameter complexity. The framework is built on three fundamental laws governing information inheritance, complexity growth, and range-richness relations. Scale-dependent golden ratio dynamics (φₑ) explain phenomena across 60 orders of magnitude from quantum (10⁻³⁵ m) tocosmic scales (10²⁶ m). The framework achieves 96–100% empirical validation acrossquantum mechanics, general relativity, cosmology, and biology without tted parameters, predicting dark energy density (Ω_Λ = 0. 685), metabolic scaling exponents, andcompositional complexity patterns. The master di erential equation uni es all dynamicsthrough φ-oscillations between entropy and gravitational collapse.
Andantom Troskot-Jenkins (Fri,) studied this question.