Add to ORKGWe use the Moller energy-momentum complex in teleparallel gravity to calculate Marder space time. The energy distribution is found to be zero everywhere. This result agrees with previous works of the authors and Cooperstock-Israelit, Salti et al., Israelit, Rosen, Johri et al. and Banerjee-Sen
We use the Moller energy-momentum complex both in general relativity and teleparallel gravity to eva...
In this paper, we consider both Einstein's theory of general relativity and the teleparallel gravity...
In order to obtain energy and momentum (due to matter and fields including gravitation) distribution...
Considering the Einstein, Moller, Bergmann-Thomson, Landau-Lifshitz (LL), Papapetrou, Qadir-Sharif a...
In order to evaluate the energy distribution (due to matter and fields including gravitation) associ...
Abstract In order to evaluate the energy distribution (due to matter and fields including gravitatio...
This study is purposed to elaborate the problem of energy and momentum distribution of the Bell-Szek...
The energy (due to matter and fields including gravitation) of the Schwarzschild-de Sitter spacetime...
In order to obtain energy and momentum (due to matter and fields including gravitation) distribution...
We obtain the energy and momentum distributions of the universe in the Bianchi type V10 spacetime in...
Considering the Moller energy definition in both Einstein's theory of general relativity and tele-pa...
We use the M{\o}ller energy-momentum complex both in general relativity and teleparallel gravity to ...
Using the energy-momentum complexes of Einstein, Bergmann-Thomson, Landau-Lifshitz (LL), Moller and ...
The energy distribution in the Locally Rotationally Symmetric (LRS) Bianchi type II space-time is ob...
We use the teleparallel geometry analog of the Moller energy-momentum complex to calculate the energ...
We use the Moller energy-momentum complex both in general relativity and teleparallel gravity to eva...
In this paper, we consider both Einstein's theory of general relativity and the teleparallel gravity...
In order to obtain energy and momentum (due to matter and fields including gravitation) distribution...
Considering the Einstein, Moller, Bergmann-Thomson, Landau-Lifshitz (LL), Papapetrou, Qadir-Sharif a...
In order to evaluate the energy distribution (due to matter and fields including gravitation) associ...
Abstract In order to evaluate the energy distribution (due to matter and fields including gravitatio...
This study is purposed to elaborate the problem of energy and momentum distribution of the Bell-Szek...
The energy (due to matter and fields including gravitation) of the Schwarzschild-de Sitter spacetime...
In order to obtain energy and momentum (due to matter and fields including gravitation) distribution...
We obtain the energy and momentum distributions of the universe in the Bianchi type V10 spacetime in...
Considering the Moller energy definition in both Einstein's theory of general relativity and tele-pa...
We use the M{\o}ller energy-momentum complex both in general relativity and teleparallel gravity to ...
Using the energy-momentum complexes of Einstein, Bergmann-Thomson, Landau-Lifshitz (LL), Moller and ...
The energy distribution in the Locally Rotationally Symmetric (LRS) Bianchi type II space-time is ob...
We use the teleparallel geometry analog of the Moller energy-momentum complex to calculate the energ...
We use the Moller energy-momentum complex both in general relativity and teleparallel gravity to eva...
In this paper, we consider both Einstein's theory of general relativity and the teleparallel gravity...
In order to obtain energy and momentum (due to matter and fields including gravitation) distribution...