Cosmological Expansion Started from the Big Bounce on Local Rotation
I. S. Nurgaliev
TL;DR
This paper explores how centrifugal forces in rotating particles can reverse gravitational collapse, suggesting a possible origin of cosmological expansion from a Big Bounce scenario within Newtonian and relativistic frameworks.
Contribution
It introduces a mechanism where local rotation-induced centrifugal forces can lead to a Big Bounce, offering a novel perspective on the universe's expansion.
Findings
Centrifugal forces can counteract gravity in rotating particle systems.
A Big Bounce scenario is plausible within Newtonian and relativistic models.
Rotation may play a key role in the universe's early expansion phases.
Abstract
The cosmological models in the frame of the Newtonian and general relativistic treatments are considered. The centrifugal forces acting between particles rotating randomly around each other are shown to be able to reverse gravitational collapse.
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Taxonomy
TopicsCosmology and Gravitation Theories · Relativity and Gravitational Theory · Advanced Mathematical Theories and Applications