Add to ORKGWe calculate the total energy of Taub's 1951 exact solution for a Bianchi type IX geometry using several different energy-localization procedures, including the prescriptions of Einstein, Papapetrou, Landau-Lifshitz and Moller. We compare these results to those for other anisotropic geometries, and comment on their relationship to Rosen's conjecture about the total energy of the universe
To calculate the total energy distribution (due to both matter and fields including grav-itation) as...
In our paper we compute the energy distribution of a magnetic stringy black hole solution in the Wei...
In this paper we calculate the energy distribution of six cases of Vaidya-solutions in the M{\o}ller...
We calculate the energy distribution of an anisotropic model of universe, based on the Bianchi type ...
We calculate the energy of an anisotropic model of universe based on the Bianchi type I metric in th...
In order to evaluate the energy distribution (due to matter and fields including gravitation) associ...
In this paper, using Einstein, Landau and Lifshitz's energy-momentum complexes both in general relat...
This paper is aimed to elaborate the problem of energy–momentum in general relativity. In this conne...
In this study, using the energy momentum definitions of Landau-Lifshitz, Papapetrou and Moller, we c...
We obtain the energy and momentum distributions of the universe in the Bianchi type V10 spacetime in...
Using the energy-momentum complexes of Tolman, Papapetrou and Weinberg, the total energy of the univ...
Energy-momentum is an important conserved quantity whose definition has been a focus of many investi...
This work extends the ideas developed in two previous papers by the authors. First- and second-order...
This paper is aimed to elaborate the problem of energy-momentum in General Relativity. In this conne...
We study energy distribution in the context of teleparallel theory of gravity, due to matter and fie...
To calculate the total energy distribution (due to both matter and fields including grav-itation) as...
In our paper we compute the energy distribution of a magnetic stringy black hole solution in the Wei...
In this paper we calculate the energy distribution of six cases of Vaidya-solutions in the M{\o}ller...
We calculate the energy distribution of an anisotropic model of universe, based on the Bianchi type ...
We calculate the energy of an anisotropic model of universe based on the Bianchi type I metric in th...
In order to evaluate the energy distribution (due to matter and fields including gravitation) associ...
In this paper, using Einstein, Landau and Lifshitz's energy-momentum complexes both in general relat...
This paper is aimed to elaborate the problem of energy–momentum in general relativity. In this conne...
In this study, using the energy momentum definitions of Landau-Lifshitz, Papapetrou and Moller, we c...
We obtain the energy and momentum distributions of the universe in the Bianchi type V10 spacetime in...
Using the energy-momentum complexes of Tolman, Papapetrou and Weinberg, the total energy of the univ...
Energy-momentum is an important conserved quantity whose definition has been a focus of many investi...
This work extends the ideas developed in two previous papers by the authors. First- and second-order...
This paper is aimed to elaborate the problem of energy-momentum in General Relativity. In this conne...
We study energy distribution in the context of teleparallel theory of gravity, due to matter and fie...
To calculate the total energy distribution (due to both matter and fields including grav-itation) as...
In our paper we compute the energy distribution of a magnetic stringy black hole solution in the Wei...
In this paper we calculate the energy distribution of six cases of Vaidya-solutions in the M{\o}ller...