This paper introduces Chavan’s Law, a groundbreaking reinterpretation of Black Hole physics that replaces the conventional singularity model with a structured vacuum energy equilibrium framework. Unlike traditional theories that describe Black Holes as infinitely dense gravitational collapse points, Chavan’s Law postulates that they are self-regulating energy structures governed by universal equilibrium principles. This work presents a new mathematical formulation that defines Black Holes as maintaining constant energy density while expanding in volume, avoiding singularities. It proposes that Black Holes gradually dissolve when their event horizon energy density aligns with the fundamental vacuum energy constant (E₀) of the Universal Energy Medium (UEM). This model eliminates the paradoxes associated with General Relativity and provides testable predictions, including measurable energy density fluctuations at event horizons, non-gravitational interactions, and unique radiation signatures during dissolution. By aligning with quantum mechanics, thermodynamics, and fundamental energy conservation laws, Chavan’s Law provides a structured, experimentally verifiable alternative to existing Black Hole models. The implications of this theory extend beyond astrophysics, offering new insights into gravitational control, energy manipulation, and the fundamental nature of space-time.