Global Journal of Chemistry, Biology and Physics (GJCBP)

QUANTIFYING THE UNSEEN: CALCULATING DARK ENERGY AND DARK MATTER

Authors

  • Dr. Julia Maria Schulz Schulstrasse 57, D-31812 Bad Pyrmont, Germany
  • Prof. Matthias Hans Becker Schulstrasse 57, D-31812 Bad Pyrmont, Germany

Abstract

The pursuit of a comprehensive understanding of the universe has led to the exploration of intriguing phenomena, such as dark energy, which remains an enigmatic force responsible for the accelerated expansion of the cosmos. In this work, we derive a novel formula for calculating dark energy, unveiling a fresh perspective on this elusive cosmic component. Our approach hinges on the fundamental concepts of the Planck time (tp) and the oscillatory nature of dark energy, which we establish as conforming to the Planck/Einstein formula. Through this derivation, we demonstrate how the quotient h/tp encapsulates the essential energy information required for the calculation of dark energy. Notably, this derivation is founded on the relatively simple assumptions that Planck time is an oscillation period (τ), and dark energy adheres to the Planck/Einstein formula.

Keywords:

Dark Energy, Formula Derivation, Planck Time, Oscillatory Nature, Cosmic Expansion

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Published

2023-10-19

Issue

Vol. 7 No. 3 (2022): July-August

Section

Articles

How to Cite

Schulz, J. M., & Becker, M. H. (2023). QUANTIFYING THE UNSEEN: CALCULATING DARK ENERGY AND DARK MATTER . Global Journal of Chemistry, Biology and Physics (GJCBP), 7(3), 9–15. Retrieved from https://zapjournals.com/Journals/index.php/GJCBP/article/view/1228

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