The Cosmic Supernova Hypothesis Part Two Toward a Testable Cosmology

What if the universe didn't begin with a singularity-but a supernova?

In this bold and rigorous follow-up to The Cosmic Supernova Hypothesis, Part Two presents a scientifically sharpened cosmological model that challenges the Big Bang paradigm. Rather than emerging from an abstract point of infinite density, the universe is reimagined as the turbulent shell of a higher-dimensional explosion-an event with structure, direction, and physical mechanisms rooted in fluid dynamics, thermodynamics, and dimensional geometry.

This volume addresses the major hurdles faced by alternative cosmologies head-on, providing:

• Testable predictions for CMB anisotropies, nonlinear redshift patterns, and high-redshift galaxy formation.
• Mathematical models grounded in blastwave physics, turbulent energy dissipation, and higher-dimensional expansion dynamics.
• A redefinition of dark matter and cosmic structure, explained through pressure gradients, vortex instabilities, and entropy flows rather than invisible particles.
• Comparative analysis with Big Bang cosmology, including nucleosynthesis, redshift, and cosmic microwave background features.
• Philosophical extensions into precursor physics, black hole cosmogenesis, and a self-replicating multiverse-without abandoning empirical grounding.

Designed to satisfy both scientifically trained readers and philosophically curious thinkers, this volume features plain-language explanations alongside technical appendices with equations and simulation logic.

Whether you are a physicist, astronomer, cosmology enthusiast, or seeker of cosmic origins, this work invites you to reconsider how we frame the universe-and to test a new model that may better fit the data.

The Cosmic Supernova Hypothesis - Part Two dares to ask: What if creation was an explosion, not of nothing, but of something far larger than our spacetime can hold?