Explanation to New insights to Gravity Dark Matter and Dark Energy.

Abstract This work introduces a conceptual framework in which gravity is interpreted not as an intrinsic attractive force, but as the result of cosmic and interstellar energy compression around celestial bodies. In this model, mass, spin, density, and orbital motion collectively generate regions of reduced energy density—cavities—into which a pervasive “cosmic energy” field compresses, producing effects currently attributed to gravitational interaction. The theory is constructed to reproduce the established successes of General Relativity proposed by Albert Einstein, including solar system tests, binary pulsar dynamics, gravitational lensing, and gravitational wave propagation. Beyond this consistency, the framework aims to provide novel, testable predictions that distinguish it from standard relativistic gravity. A central objective is to redefine the need for dark matter and dark energy by explaining galactic rotation curves, large-scale structure behavior, and cosmic acceleration as emergent consequences of variations in cosmic energy compression rather than invoking unseen components. Within this context, “cosmic energy” is proposed as a universal field or fluid-like medium whose gradients and dynamics give rise to observable gravitational phenomena. The theory further seeks to derive the inverse-square law from first principles within this compression-based paradigm and to extend its explanatory scope to supernova observations and galactic dynamics. A comprehensive mathematical formulation—linking mass, spin, and orbital parameters to energy compression effects—will be developed in subsequent work.