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# Gravity Is Not a Force — It's the Entropic Drift of Spacetime
- Gravity is proposed to be the entropic drift through spacetime's thermodynamic landscape, challenging the traditional force or geometric interpretation.
- Gravity is explained as arising from entropy redistribution across spacetime, unifying general relativity with thermodynamics and offering insights into black holes and cosmology.
- Einstein's equations and Jacobson's work are reinterpreted, showcasing that gravitational acceleration corresponds to negative entropy density gradients.
- Verlinde's entropic gravity theory is discussed, demonstrating how gravitational force emerges from entropy maximization.
- A mathematical formalism is developed, describing gravity as the emergent drift through spacetime's entropy field shaped by energy concentration.
- Key implications include the understanding of black holes as ultimate entropy wells, cosmological structure formation, and the potential connections to dark energy and dark matter.
- Experimental predictions involve testing entropy effects in gravitational analog systems, precision gravimetry, and astrophysical observations like gravitational wave signatures.
- The framework's connections to quantum gravity, holographic principles, string theory, and spacetime engineering limitations are examined alongside philosophical implications related to consciousness and space-time nature.
- The paper concludes by presenting the universe as a thermodynamic engine guided by gravity's entropic drift, offering new perspectives on fundamental physics questions.
- References to foundational works by Bekenstein, Hawking, Jacobson, Verlinde, and others are provided for further exploration.
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