this post was submitted on 08 Oct 2023
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2024-11-11

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Hello everyone,

I'm excited to share a new paper I've been working on that proposes a unique approach to understanding some of the most perplexing questions in cosmology. The paper is titled "Deriving Dark Phenomena and Gravity from Entropy Horizons," and it aims to offer an alternative explanation for phenomena commonly attributed to dark matter and dark energy.

The Core Idea. The central hypothesis is that the universe's mass-energy M(t) decays exponentially over cosmic time t as M(t) = M₀ * e^(-kt), where k is a very small universal decay constant. This decay drives the expansion of distances R(t) between objects as R(t) = R₀ * e^(kt).

Why is this Important? This model could potentially unify various phenomena under a single framework and offer new perspectives on:

  • Black Hole Physics
  • Quantum Mechanics and Quantum Gravity
  • General and Special Relativity
  • Astrophysics and Galactic Dynamics
  • Thermodynamics and Entropy

Next Steps. I'm in the process of subjecting this theory to rigorous peer review and empirical testing. I'm also exploring its implications across multiple domains of physics, from quantum mechanics to general relativity.

Read the Full Paper. For those interested in diving deeper, you can read the full paper here.

Feedback Welcome. I'm eager to hear your thoughts, criticisms, and questions. Let's have a constructive discussion!-

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[–] foolsh_one 1 points 1 year ago

The effect is so small and decays exponentially getting smaller and smaller each step so it never really reaches zero, the eventual heat death of the universe will happen way before this effect has time to do its thing.