Abstract: The Cosmic Energy Compression Theory of Gravity proposes that gravity is not a pull nor spacetime curvature, but the inward compression of cosmic energy into cavities carved by spin, mass, density, and motion. A central prediction is that faster spin → deeper compression cavity → stronger gravity (per unit mass). Here we survey a range of astrophysical objects with extreme rotation rates – millisecond pulsars, fast‑spinning white dwarfs, massive rapidly rotating stars, and black holes spinning near the theoretical limit – and show that their observed gravitational effects are qualitatively consistent with this mechanism. No dark matter or exotic physics is required. This article provides strong circumstantial evidence for the theory at cosmic scales. Quantitative constants remain to be determined, but the qualitative pattern is clear: across all scales, higher spin correlates with enhanced gravitational influence, exactly as the compression cavity principle predicts. Copyright: © Asif Majeed, 2026 This Version: 1.10 DOI.10.5281/zenodo.20451549
Asif Majeed (Sat,) studied this question.
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