Energy-Momentum in the Viscous Kasner-type Universe in Teleparallel   Gravity

Mustafa Salti

arXiv:gr-qc/0508018·gr-qc·October 21, 2019

Energy-Momentum in the Viscous Kasner-type Universe in Teleparallel Gravity

Mustafa Salti

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TL;DR

This paper investigates the energy-momentum distribution in a viscous Kasner-type universe within the framework of teleparallel gravity, aiming to understand the role of viscosity and gravity in cosmological models.

Contribution

It presents a novel analysis of energy-momentum in viscous Kasner universes specifically using teleparallel gravity, extending previous scalar-tensor and teleparallel studies.

Findings

01

Energy-momentum distribution calculated for viscous Kasner universe

02

Viscosity effects influence the energy-momentum components

03

Results contribute to understanding gravitational energy in anisotropic cosmologies

Abstract

This paper has been removed by arXiv administrators because it plagiarizes gr-qc/0011027, "Viscous cosmologies in scalar-tensor theories for Kasner type metrics," by M. Cataldo, S. del Campo and P. Salgado; and gr-qc/0303034, "The energy of the universe in teleparallel gravity," by T. Vargas.

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