Published February 20, 2026 | Version v2

The Impact of Mersenne Primes on the Perfection of Number

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Abstract:
This research introduces a novel structural perspective on even perfect numbers, moving beyond the classical summation definition toward an "Anatomy of Disintegration." The study proposes that perfection is an absolute settlement between four internal pillars: the Dividend, the Divisor, the Result, and the inherent "Numerical Potential" (Baza'at).
By categorizing divisors into three distinct zones—the Body (powers of 2), the Heart (Mersenne Primes), and the Reflection—this paper demonstrates that a perfect number is a balanced geometric system. The "Heart" (Mersenne Prime) acts as a stabilizing anchor that perfectly reflects the Body's potential into the higher divisor range. This symmetry explains the linear stability observed in the distribution of perfect divisors. The findings suggest that mathematical perfection is not a numerical coincidence but a sustainable structural order governed by the Euclid-Mersenne relationship

Keywords: Prime Heart, Structural Equilibrium, Numerical Potential (Baza'at), Number Theory, Mathematical Symmetry, Perfect Numbers.

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The Structural Necessity of Prime Factors in the Equilibrium of Perfect Numbers.pdf

Additional details

References

  • Euclid-Mersenne Theorem: Euclid, Elements, Book IX, Proposition 36 (c. 300 BC); refined by Leonhard Euler (1776). This fundamental theorem establishes the direct link between Mersenne Primes (2^p - 1) and even perfect numbers.