ABSTRACT: A critical examination of the parameter t (time) as it is employed in our most fundamental physical theories reveals a profound inconsistency. General relativity formulates time as a dimension geometrically fused with space, rendering the "flow" of time subjective. Thermodynamics attributes the perceived directionality of time to statistical mechanics and initial cosmic conditions, not to a fundamental asymmetry. Most critically, attempts at a quantum theory of gravity, such as the Wheeler-DeWitt equation, suggest a fundamental description of the universe in which the time parameter is absent altogether. This paper argues that time is not a fundamental, pre-existing canvas upon which events unfold. Instead, we propose that temporality is an emergent, relational, and observer-dependent phenomenon, arising from the quantum correlations and thermodynamic gradients of a fundamentally timeless, static reality.
Tanay Agrawal (Fri,) studied this question.