This paper presents Information Constraint Theory (ICT), a novel framework for understanding galactic dynamics and large-scale cosmic structure. ICT posits that spacetime obeys intrinsic informational constraints, with a fundamental structural constant K = e. From this first principle, we derive the Al-Kilani Gradient Law and the scaling factor 42, providing a parameter-free explanation for observed galaxy rotation curves without invoking dark matter. The manuscript includes: An axiomatic foundation of ICT Structural derivation of galactic scale factors A rigorous mathematical formulation of the density gradient Comparative context with MOND and RAR Predictions validated against the SPARC database (²ᵣed 1. 02) ICT offers a mathematically self-consistent, physics-first framework, bridging fundamental constants with observable galactic behavior. This work establishes a foundation for further theoretical and computational exploration of the universe as an informationally constrained system.
Al-Kilani et al. (Thu,) studied this question.
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