This update to the ZIPPED framework introduces the full integration of the Freeman disk potential to account for the baryonic mass distribution in spiral galaxies. By moving beyond point-mass approximations, this version provides a mathematically rigorous description of the inner rotation profiles where Newtonian dynamics dominate, while maintaining the ZIPPED elastic term for the outer regions. Key highlights of this version: Empirical Validation: Direct comparison with the SPARC database, demonstrating an exceptional match for both low-mass dwarf galaxies (e.g., UGC 7524) and high-mass giant galaxies (e.g., NGC 2841). Universal Scaling Law: Confirms the transition radius r_0 follows a mass-dependent scaling law (r_0 \propto \sqrt{M}), fundamentally linked to the "Law of Cosmic Unraveling." Locked Theory: The core axioms and constants of the ZIPPED model remain unchanged, proving the robustness of the theory as a viable alternative to Dark Matter. Reproducibility: Includes a verified Python implementation using Bessel function integration for independent verification by the scientific community. 3. Keywords Enter these into the 'Keywords' section on Zenodo to ensure your work appears in NASA/ADS and other databases: This update to the ZIPPED framework introduces the full integration of the Freeman disk potential to account for the baryonic mass distribution in spiral galaxies. By moving beyond point-mass approximations, this version provides a mathematically rigorous description of the inner rotation profiles where Newtonian dynamics dominate, while maintaining the ZIPPED elastic term for the outer regions. Key highlights of this version: Empirical Validation: Direct comparison with the SPARC database, demonstrating an exceptional match for both low-mass dwarf galaxies (e.g., UGC 7524) and high-mass giant galaxies (e.g., NGC 2841). Universal Scaling Law: Confirms the transition radius r_0 follows a mass-dependent scaling law (r_0 \propto \sqrt{M}), fundamentally linked to the "Law of Cosmic Unraveling." Locked Theory: The core axioms and constants of the ZIPPED model remain unchanged, proving the robustness of the theory as a viable alternative to Dark Matter. Reproducibility: Includes a verified Python implementation using Bessel function integration for independent verification by the scientific community. 3. Keywords Enter these into the 'Keywords' section on Zenodo to ensure your work appears in NASA/ADS and other databases: Galactic Rotation Curves, Dark Matter Alternative, ZIPPED Theory, Freeman Disk, SPARC Database, Spacetime Elasticity, Modified Gravity, Astrophysics, Cosmology.