The Problem:Standard models require "Dark Matter" to explain galactic rotation. I’m proposing a simpler mechanism: Gravitational Dilution.The Hypothesis:Gravity is not a static constant ($G$), but a dynamic tension that is inversely proportional to the cosmic scale factor. As the universe expands, the fundamental gravitational field is "stretched," leading to the observed hierarchy problem (why gravity is so weak compared to other forces).Key Mechanics:Interior Equilibrium: Inside gravitationally bound structures, a "Peace Treaty" exists where local density offsets expansion, preserving Unitarity (Information Continuity). This allows the universe to function as a stable "record" of physical events.Frontier Dilution: At the cosmic horizon, expansion pulls the fabric of space faster than the diluted gravity can react. This "War at the Edge" removes the need for Dark Energy as an external force; expansion is simply the primary driver thinning out the secondary force (Gravity).The Conceptual Framework: I am proposing that the Gravitational Constant is not a fixed value, but a variable scale factor. In this model, the strength of gravity is inversely proportional to the expansion of the universe. As the volume of space increases, the fundamental "tension" of gravity is spread thinner. I am interested in feedback on how this scaling effect modifies the standard acceleration equations of the universe without the need for external "Dark" energy or matter variables.
>>16905088($G$) ./ img
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