We present a comprehensive analysis of the testable predictions arising from the Information Geometric Unified Field Theory (IGUFT), in which all fundamental interactions emerge from the geometry of an information manifold. Seven key predictions are derived: (i) modified dispersion relations at Planckian energies leading to time delays in gamma-ray bursts; (ii) an energy–information uncertainty relation E I kB T/2; (iii) non-supersymmetric unification of gauge couplings at MU 1. 210^16 GeV; (iv) a dynamical dark energy component that can alleviate the Hubble tension; (v) a detailed mechanism for black hole information conservation with observable correlations in Hawking radiation; (vi) geometric origin of fermion mass hierarchies and mixing angles; (vii) a logarithmic correction to the entanglement entropy–area law. For each prediction we provide explicit numerical estimates, comparison with current experimental bounds, and forecasts for future tests. The theory is shown to be highly falsifiable across multiple energy scales and experimental domains.
Y. Li (Sun,) studied this question.
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