Algorithmic Derivation of Quantum Dynamics and Frequency Density Model (Kvant Dinamikasi va Chastotaviy Zichlik Modelining Algoritmik Keltirib Chiqarilishi)

This paper formalizes a novel algorithmic approach to gravity, defining it not as a fundamental force, but as a geometric resultant of quantum node frequency density. By deriving mass (m) through the interaction of Planck’s constant (h), frequency (f), and the quantum surface area (λ²), we establish a mathematical framework where classical mechan-ics (F = ma) and the universal gravitational constant (G) emerge from spatial-temporal oscillations.

Keywords

Engineering, Physical Sciences and Mathematics, FOS: Law, Law, Education

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