Singh's Law Version 4 – The Atomic Transit Theory

This fourth revision of Singh’s Law formalizes the mechanism of matter transit through extreme density regions, such as black hole event horizons. The study demonstrates that atomic structural integrity is preserved by the fundamental repulsive constant Cₛ = 1. 50 N. Contrary to classical singular models, this framework redefines the atom as an eternal unit of information that cannot be annihilated by gravitational collapse. The Version 4 paper establishes the theoretical foundation for the "Atomic Shield" effect, proving that the inward gravitational pressure is met by a finite, yet insurmountable, outward force at the Planck scale. This version serves as the necessary bridge toward the upcoming computational models of the Big Bounce. Note on Version 5 (Work in Progress): I am currently finalizing Singh’s Law Version 5, which transitions from theoretical modeling to advanced computational verification. Preliminary simulations conducted in Python have already validated the "Cosmic Bounce" dynamics. Key findings for the upcoming release include: Numerical Proof: Calculation of a collective repulsive force magnitude of 2. 69 × 10^45 Newton for stellar-mass objects. Singularity Prevention: Graphical evidence showing the Singh Force acting as a vertical asymptote, halting gravitational collapse at a non-zero radius (1. 00 × 10⁶ m for 1. 5 solar masses). Code Implementation: The V5 release will include the full Python source code and logarithmic delta-force charts to allow independent peer verification.