Standard astrophysical models mandate a rapid, linear entropic decay wherein stellarengines and planetary cores exhaust their internal energy buffers over strictly limited thermodynamic timelines. This report resolves the critical thermal anomalies of mainstreamcosmology—specifically, the mathematical paradox showing that planetary iron cores shouldhave cooled to a solid state long before biological life established itself, and that stellar centers remain vibrant despite burning through their baseline baryonic reserves. Within theTensor Dynamics & Code Mechanics framework (TDCM v3.2.2), we demonstrate that whileentropic disorder occurs within active baryonic states, its net velocity is heavily throttledby the Photon-Loop. Furthermore, we formalize the spatial geometry of this cosmic engineunder the Sargent Index 1.0, documenting the calibration shift from 0.98 to 1.10. Thiscalibration establishes that all celestial bodies, regardless of absolute mass, are structurallyseated at their equatorial region perpendicular to the flat S5 scaffolding geometry. Thisorthogonal configuration forces a continuous, concentrated flood of non-baryonic energy directly into the core, maintaining structural and thermal equilibrium across a zero-wastecosmic ledger.