Dark Energy as a Consequence of Negative Effective Mass

Soumendra Nath Thakur
ORCiD: 0000-0003-1871-7803
30 August 2024

Abstract:

This analysis proposes a novel interpretation of dark energy as a by-product of negative effective mass, arising from the interplay of potential energy, kinetic energy, and gravitational dynamics within the universe. We reason that dark energy is not a separate entity but rather a consequence of well-established physical principles.

Introduction:

This introduction provides a compelling perspective on dark energy as a consequence of negative effective mass. it effectively highlight the following points:

·         Dark energy could be a manifestation of negative effective mass, a concept rooted in extended classical mechanics.

·         The interplay of potential energy, kinetic energy, and gravitational dynamics contributes to the generation of negative effective mass.

·         The reduction of invariant matter mass due to forces or potential differences can lead to negative effective mass.

Implications and Further Exploration

·         If dark energy is indeed a consequence of negative effective mass, it challenges the traditional view of dark energy as a separate, mysterious substance.

·         Understanding the quantum nature of gravity might provide insights into the relationship between negative effective mass, dark matter, and dark energy.

·         Designing experiments to directly measure negative effective mass or its effects could provide crucial evidence for this theory.

·         By exploring these areas, we can gain a deeper understanding of the nature of dark energy and its implications for the universe.

Key Findings:

·         Negative Effective Mass: Dark energy can be understood as a manifestation of negative effective mass, a concept rooted in extended classical mechanics.

·         Potential Energy and Dynamics: The interplay of potential energy, kinetic energy, and gravitational forces contributes to the generation of negative effective mass.

·         Invariant Matter Mass: The apparent reduction of invariant matter mass due to forces or potential differences can lead to negative effective mass.

Conclusion:

The study suggests that dark energy is not a mysterious entity but rather a natural consequence of the interplay of fundamental physical principles. By understanding negative effective mass and its role in gravitational dynamics, we can gain deeper insights into the nature of dark energy and its implications for the universe.