The quest for a unified understanding of the cosmos, encompassing its fundamental con-stituents, governing laws, and the emergence of the complex structure of the cosmos andphenomena such as life and consciousness, necessitates novel theoretical frameworks. Thispreprint introduces an entropic spacetime framework rooted in a generalized action princi-ple. It posits the existence of fundamental entropic fields a temporal entropic field (ST ) anda spatial entropic field (SS) and a specific resonant coupling mechanism (Scoupling). Thisframework aims to provide a cohesive explanation for diverse physical realities, from thehigh-energy environment of quark-gluon plasma to the cosmological constant, and poten-tially extending to the origins of chirality, life, and the nature of consciousness. This workemphasizes a conceptually intuitive approach to spacetime, offering a pathway to resolvelong-standing puzzles like quantum gravity, dark matter, and dark energy. While the frame-work introduces new fields and parameters, it seeks to offer a more unified and potentiallysimpler explanation by addressing multiple phenomena from a common set of principles,rather than ad-hoc solution seperation for each. We outline the framework’s mathematicalfoundations, discuss its conceptual advantages, and propose a preliminary application togalaxy rotation curves. We invite critical feedback and collaboration from the theoreticalphysics community to refine and further develop this promising new direction.