The Chirality of Dynamic Emergent Systems (CODES): A Unified Framework for Cosmology, Quantum Mechanics, and Relativity
The Chirality of Dynamic Emergent Systems (CODES): A Unified Framework for Cosmology, Quantum Mechanics, and Relativity
This paper introduces CODES (Chirality of Dynamic Emergent Systems), a unified framework that resolves deep paradoxes in modern physics by eliminating the need for a universal Big Bang singularity and replacing it with an oscillatory cosmic model. CODES proposes that energy and matter function as chiral oscillatory partners, where structured resonance governs the emergence of physical laws. Key contributions of CODES include: • A reconciliation between general relativity and quantum mechanics through structured intelligence fields. • A reformulation of dark energy and dark matter as emergent resonance effects rather than separate physical entities. • A predictive framework for cosmological structures, explaining redshift periodicity, baryon acoustic oscillations (BAO), and gravitational field fluctuations. • A resonance-driven model of cosmic evolution, replacing singularities with structured phase transitions in energy-matter formation. By integrating mathematics, quantum physics, and cosmology under the principle of structured resonance, CODES provides a falsifiable model that aligns with observed universal structures while predicting new testable phenomena.
Artificial intelligence, relativity, Neural Networks, Consciousness, Systems Engineering, Quantum physics, Metaphysics, Wavelet Analysis, Information Theory, Machine Learning, Machine learning, FOS: Mathematics, Mathematical Physics, Prime numbers, Complex Systems, Dynamical Systems, Cosmology, FOS: Philosophy, ethics and religion, Quantum field theory, Computational Physics, Philosophy, Nonlinear Dynamics, Quantum gases, Cognitive Science, Quantum Theory, Synthetic Biology, Theoretical physics, Quantum chemistry, Nonlinear Systems, Fractal Geometry
Artificial intelligence, relativity, Neural Networks, Consciousness, Systems Engineering, Quantum physics, Metaphysics, Wavelet Analysis, Information Theory, Machine Learning, Machine learning, FOS: Mathematics, Mathematical Physics, Prime numbers, Complex Systems, Dynamical Systems, Cosmology, FOS: Philosophy, ethics and religion, Quantum field theory, Computational Physics, Philosophy, Nonlinear Dynamics, Quantum gases, Cognitive Science, Quantum Theory, Synthetic Biology, Theoretical physics, Quantum chemistry, Nonlinear Systems, Fractal Geometry
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