Authors :
Kunal Kishor Verma
Volume/Issue :
Volume 10 - 2025, Issue 10 - October
Google Scholar :
https://tinyurl.com/5dxbz77s
Scribd :
https://tinyurl.com/5f8pyjn6
DOI :
https://doi.org/10.38124/ijisrt/25oct765
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Abstract :
The Timeless Energy Principle (TEP) proposes that energy exists in a primordial, pre-spacetime state—timeless,
formless, and unbounded—out of which matter, time, and dimensions emerge. Unlike Einstein’s iconic E=mc2, which
presupposes spacetime, TEP considers energy as the fundamental substrate preceding spacetime geometry. This paper
extends TEP into the realm of higher dimensions, hypothesising that additional dimensional manifolds emerge naturally
from fluctuations of timeless energy. We argue that these dimensions may provide the scaffolding for phenomena such as
dark energy, quantum entanglement, and multiverse connectivity.
In contrast to conventional models, which require spacetime as a prerequisite, TEP provides an ontological foundation
for dimensions themselves. This implies that higher dimensions are not merely compactified mathematical artefacts but
dynamic manifestations of timeless energy fluctuations. Such a standpoint aligns with recent attempts to reconcile quantum
gravity with cosmology and offers explanatory depth for dark matter, vacuum energy, and entropy flow.
References :
- Einstein, A. (1905). Zur Elektrodynamik bewegter Körper. Annalen der Physik.
- Einstein, A. (1915). Die Feldgleichungen der Gravitation. Sitzungsberichte der Königlich Preußischen Akademie.
- Kaluza, T. (1921). Zum Unitätsproblem der Physik. Sitzungsberichte der Preussischen Akademie.
- Klein, O. (1926). Quantum Theory and Five-Dimensional Relativity.
- Green, M., Schwarz, J., Witten, E. (1987). Superstring Theory. Cambridge University Press.
- Witten, E. (1995). String Theory Dynamics in Various Dimensions. Nucl. Phys. B.
- Aspect, A. (1982). Experimental Realisation of Bell’s Inequalities. Phys. Rev. Lett.
- K.K. Verma (2023–25). Timeless Energy Principle (TEP): Beyond E=mc². Academia/ResearchGate.
The Timeless Energy Principle (TEP) proposes that energy exists in a primordial, pre-spacetime state—timeless,
formless, and unbounded—out of which matter, time, and dimensions emerge. Unlike Einstein’s iconic E=mc2, which
presupposes spacetime, TEP considers energy as the fundamental substrate preceding spacetime geometry. This paper
extends TEP into the realm of higher dimensions, hypothesising that additional dimensional manifolds emerge naturally
from fluctuations of timeless energy. We argue that these dimensions may provide the scaffolding for phenomena such as
dark energy, quantum entanglement, and multiverse connectivity.
In contrast to conventional models, which require spacetime as a prerequisite, TEP provides an ontological foundation
for dimensions themselves. This implies that higher dimensions are not merely compactified mathematical artefacts but
dynamic manifestations of timeless energy fluctuations. Such a standpoint aligns with recent attempts to reconcile quantum
gravity with cosmology and offers explanatory depth for dark matter, vacuum energy, and entropy flow.
