Information_Entropy_Spacetime_Unification_Hypothesis.pdf

The Information Entropy Spacetime Unification Hypothesis (IESUH) proposes a new framework to unify spacetime, information theory, thermodynamics, and fundamental forces. It suggests that entropy is intrinsically tied to spacetime, shaping its curvature and governing the propagation of forces like gravity and electromagnetism. A key concept, entropy flow velocity, describes how entropy changes over time, potentially influencing the speed of light, force interactions, and time dilation. IESUH posits that spacetime emerges from the dynamic flow of information, functioning as both a storage medium and a computational process. The laws of physics may arise from deeper computational principles that dictate how information is encoded, transmitted, and processed. In this view, the speed of light results from spacetime constraints on information flow, rather than being a fundamental limit. The theory also introduces microscopic entropy carriers, akin to quantum particles, which facilitate information transfer at fundamental scales. Higher dimensions may play a role in this framework, explaining quantum entanglement as information exchange beyond classical speed constraints. Gravitational waves are, similarly, seen as signals of information exchange between cosmic systems. IESUH implies that the dynamics of entropy directly influences time, and increasing entropy accelerates the observer's experience of it. This could allow entropy-driven time manipulation or quantum tunnels enabling "jumps" into the future, though travel to the past remains impossible because of thermodynamic irreversibility. Ultimately, IESUH redefines spacetime as an emergent, self-organizing computational process, offering new insights into quantum gravity, black holes, and the fundamental nature of reality.