Omniphysics: A Consciousness-Dependent Extension of the Schrödinger Equation - part 1

This paper introduces Omniphysics, a novel theoretical framework that incorporates consciousness as an active, quantifiable variable in quantum mechanics. Building upon foundational interpretations such as the Copenhagen, Many-Worlds, and Bohmian models, Omniphysics proposes a time-dependent consciousness term, C(t), added to the Schrödinger equation. This term models the influence of observer awareness on quantum state evolution. Through Python-based simulations, the study compares wave packet behavior under standard quantum mechanics versus a consciousness-modified framework. Results reveal consistent phase shifts induced by C(t), suggesting that observation may exert a continuous, measurable influence on quantum systems. The framework draws upon dual-aspect monism to unify subjective and objective realities and offers potential resolutions to the quantum measurement problem. This work provides a testable foundation for further experimental exploration of observer-driven effects in quantum systems.