TL;DR
This paper calculates the energy distribution in Kerr-Newman spacetime using Møller’s complex, confirming it aligns with the Komar mass and supporting the Cooperstock hypothesis.
Contribution
It applies Møller’s energy-momentum complex to Kerr-Newman spacetime and demonstrates agreement with the Komar mass, providing evidence for the Cooperstock hypothesis.
Findings
Energy distribution matches the Komar mass
Supports the Cooperstock hypothesis
Validates Møller energy-momentum complex in Kerr-Newman spacetime
Abstract
The energy distribution in the Kerr-Newman space-time is computed using the M{\o}ller energy-momentum complex. This agrees with the Komar mass for this space-time obtained by Cohen and de Felice. These results support the Cooperstock hypothesis.
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