Abstract This paper proposes a perspective-driven framework for understanding why certain physical descriptions, particularly particle-like representations of fundamentally wave-based phenomena persist across scale, despite growing mathematical complexity. Rather than introducing new physical laws, the framework reframes existing ones by pinning a single invariant, namely light as a static reference and exploring how time, particles, and classical experience emerge as perspectival artifacts of scale, compression, and information loss. Central to this proposal is the concept of a “gap”: the interface at which continuous descriptions are rendered discrete, and where experience, memory, and measurement coincide. This gap is not asserted as a new physical entity, but as a structural necessity shared by physical modeling and conscious perception. The framework suggests that the boundary required by physics for localization and irreversibility may also be unavoidable in any account of conscious experience, whether or not these ultimately prove to be the same phenomenon.
Nathon Gunn (Fri,) studied this question.