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The Fractal Soda Pop Bootstrap Universe: A Mathematical Framework for a Recursive, Self-Regulating…
- The Fractal Soda Pop Bootstrap Universe proposes a novel cosmological model to address current puzzles in cosmology such as dark matter, dark energy, and singularities.
- It combines fractal mathematics with the relatable analogy of a 'Soda Pop Universe' to present a unified framework for cosmic evolution.
- The model introduces the concept of Bootstrap Causality to govern a recursive, self-correcting cosmic process.
- The 'Soda Pop Universe' analogy envisions dark matter as the structural medium, dark energy as the driving force of cosmic expansion, and galaxies as bubbles in a carbonated medium.
- The mathematical core of the framework, the Fractal Flux Bootstrap Time Spiral, offers innovations in cosmic modeling by addressing concepts like white holes and singularities.
- FF-BTS describes the evolution of cosmic scale factors, resolving singularities through regulated mass-energy densities and recursive feedback loops.
- The FSPBU framework unifies dark matter and dark energy, describes cosmic structures as fractal gravity wells, and models cosmic evolution as recursive feedback loops.
- Unique observational predictions include anomalies in the Cosmic Microwave Background, distinct galaxy distribution patterns, and gravitational wave signatures.
- Numerical and analytical validations support the FSPBU model, showcasing features like stable attractors, bifurcations, and recurrent cosmic behaviors.
- Implications of the FSPBU include replacing the Big Bang with cyclic cosmic renewal, dynamic self-regulation, and a scalable framework applicable across micro and macro phenomena.
- Future directions involve formalizing flux equations, numerical simulations, identifying observational signatures, and peer-reviewed publications to refine the model.
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