Extracting Gravitational Energy From The Homogeneous Isotropic Universe

TL;DR

This paper proposes a theoretical method to extract unlimited gravitational energy from a universe with artificially created gravitational dipoles, involving spacetime distortion and mechanical constraints.

Contribution

It introduces a novel concept of using self-created gravitational dipoles to generate and localize unlimited gravitational energy.

Findings

Derived a mechanical constraint for energy extraction.

Theoretical possibility of indefinite energy gain from gravitational dipoles.

Conceptual framework for harnessing gravitational energy in curved spacetime.

Abstract

The kinetic energy of a local system of objects placed in a curved spacetime is gained by the subsequent acceleration of the object following the more contracted region of spacetime. Normally this happens near massive gravitating stars. However, the gravitational dipole moment has been shown to be capable of self creating asymmetrically distorted spacetime in its vicinity, therby, capable of being accelerated indefinitely following the successive self created loophole of the spacetime. Localization of this kinetic energy may be possible by designing a system that uses the artificially created gavitational dipole moments to rotate the main axis. A mechanical constraint is derived for the extraction of unlimited gravitational energy from such system.