k-Foam Theory: Elastic Foam Model of Space and Unified Description of Physical Phenomena

This paper presents k-Foam Theory, a hypothetical framework attempting to explain diverse physical phenomena through a unified geometric model.
Beginning from a survival simulation experiment, the theory proposes that space consists of an elastic foam structure, with physical constants and particle properties emerging from the geometry of k-values 3, 4, and 6.
Five independent physical constants — proton radius, nuclear force range, Weinberg angle, electroweak scale, and Higgs mass — are derived from a single geometric framework with errors within 2%.
Additional derivations include proton mass (0.073% error), lepton generation mass ratios (0.05-0.06% error), dark matter/baryon ratio (0.04% error), and a geometric interpretation of Hubble tension.We will also try to elucidate quantum entanglement.
This theory does not negate existing physics but attempts a reinterpretation of foundational premises.