Bridging the Gap: A Quantum-Classical Exploration of Newtonian Mechanics in the Big Bang Theory

The Big Bang theory has reshaped cosmology, positing that the universe originated from a singularity—a point of infinite density and temperature. While this model provides a robust narrative of cosmic evolution, the true mechanisms driving the initial expansion remain largely unexplored. This paper ventures into this territory by examining whether Newton’s three laws of motion, traditionally confined to macroscopic bodies, might offer insights into the very birth of the cosmos. By conceptualizing the universe’s expansion through a quantum-classical synthesis, we present Newtonian mechanics not merely as historical relics but as potentially revelatory tools for comprehending cosmic origins. While the classical framework alone cannot encapsulate quantum or relativistic phenomena, its foundational principles of force, inertia, and reaction propose a fresh analytical lens. This exploration ultimately argues for the integration of classical, quantum, and relativistic physics into a singular narrative, one capable of unearthing the forces that ushered the universe into existence.