Time Definition - time-entropy/What-Is-the-concept-definition-meaning-nature-of-time GitHub Wiki

Time's Definition

Time: A Quantum Thermodynamic Map of the Universe’s Clock

Time might not be what we think. Forget the steady tick of a clock—new physics suggests time is an emergent algorithm, written in the language of quantum thermodynamics and executed by spacetime’s smallest processors.

The Quantum Clockwork

At the Planck scale, spacetime isn’t smooth. It’s a dynamic network of discrete units—think of them as cosmic pixels—each processing energy states like a quantum transistor. Time emerges from their collective operations: every energy transition in these units adds a "line of code" to the universe’s program, incrementing entropy and advancing the clock. This isn’t philosophy; it’s a thermodynamic computation where time’s arrow is the inevitable output of irreversible state changes.

Time, Entropy, and the Geometry of Transformation: A Quantum Thermodynamic Lens

At its core, this framework redefines time as an emergent ledger—a count of discrete, entropy-driven transformations in a network of Planck-scale spatial units (SEQ). Each transformation corresponds to a non-reversible step in the universe’s state evolution, where entropy is computed multiplicatively across the energy states of participating SEQ. Crucially, spacetime curvature (gravity) and local time dilation emerge from modulated transformation frequencies—compression or stretching of the SEQ network alters the "clock rate" of regions, mirroring general relativistic effects while grounding them in quantum thermodynamics.