Add to ORKGUsing distributional techniques we calculate the energy--momentum tensor of the Schwarzschild geometry. It turns out to be a well--defined tensor--distribution concentrated on the $r=0$ region which is usually excluded from space--time. This provides a physical interpretation for the curvature of this geometry
Using Einstein's and Weinberg's energy complex, we evaluate the energy distribution of the...
Colombeau's theory of generalised functions is used to calculate the contributions, at the rotation ...
An exact solution of Einstein equation is easier than actual solution. The Schwarzschild metric is e...
For Schwarzschild space-time, distributional expressions of energy-momentum densities and of scalar ...
Energy-momentum tensor valued distributions for the Schwarzschild and Reissner-Nordstrom geometries ...
The energy (due to matter and fields including gravitation) of the Schwarzschild-de Sitter spacetime...
Using a single particle density distribution for a system of self-gravitating particles which ultima...
The case of asymptotic Minkowskian space-times is considered. A special class of asymptotic rectilin...
In general relativity one of the most fundamental issues consists in defining a generally acceptable...
This paper dealing with extension of the Einstein eld equations using apparatus of contemporary gen...
This paper dealing with extension of the Einstein eld equations using apparatus of contemporary gen...
This paper dealing with extension of the Einstein eld equations using apparatus of contemporary gen...
This paper dealing with extension of the Einstein eld equations using apparatus of contemporary gen...
This paper dealing with extension of the Einstein eld equations using apparatus of contemporary gen...
In this paper, we consider both Einstein's theory of general relativity and the teleparallel gravity...
Using Einstein's and Weinberg's energy complex, we evaluate the energy distribution of the...
Colombeau's theory of generalised functions is used to calculate the contributions, at the rotation ...
An exact solution of Einstein equation is easier than actual solution. The Schwarzschild metric is e...
For Schwarzschild space-time, distributional expressions of energy-momentum densities and of scalar ...
Energy-momentum tensor valued distributions for the Schwarzschild and Reissner-Nordstrom geometries ...
The energy (due to matter and fields including gravitation) of the Schwarzschild-de Sitter spacetime...
Using a single particle density distribution for a system of self-gravitating particles which ultima...
The case of asymptotic Minkowskian space-times is considered. A special class of asymptotic rectilin...
In general relativity one of the most fundamental issues consists in defining a generally acceptable...
This paper dealing with extension of the Einstein eld equations using apparatus of contemporary gen...
This paper dealing with extension of the Einstein eld equations using apparatus of contemporary gen...
This paper dealing with extension of the Einstein eld equations using apparatus of contemporary gen...
This paper dealing with extension of the Einstein eld equations using apparatus of contemporary gen...
This paper dealing with extension of the Einstein eld equations using apparatus of contemporary gen...
In this paper, we consider both Einstein's theory of general relativity and the teleparallel gravity...
Using Einstein's and Weinberg's energy complex, we evaluate the energy distribution of the...
Colombeau's theory of generalised functions is used to calculate the contributions, at the rotation ...
An exact solution of Einstein equation is easier than actual solution. The Schwarzschild metric is e...