29 August 2024

Generation of Dark Energy in the Universe: Dominance in Gravitational Dynamics


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


The Dark Energy is Generated When Mᵉᶠᶠ>Mᴍ, Gravitating Mass Mɢ<0 Dominates the Gravitational Universe!


Mɢ = Mᴍ + Mᵉᶠᶠ 

The relationship between different types of mass in the context of dark energy and gravitational dynamics in the universe.. 

The interpretation:

• Mɢ represents the gravitating mass. This is the mass that contributes to the gravitational effects we observe in the universe.
• Mᴍ represents the matter mass. This is the conventional mass associated with matter in the universe, such as stars, planets, and galaxies.
• Mᵉᶠᶠ represents the effective mass. This term could be associated with the influence of forces or energy, such as dark energy, on the system.

• The equation Mɢ = Mᴍ + Mᵉᶠᶠ suggests that the gravitating mass (Mɢ) is the sum of the matter mass (Mᴍ) and the effective mass (Mᵉᶠᶠ).

The second part of the statement asserts that dark energy is generated when the effective mass (Mᵉᶠᶠ) exceeds the matter mass (Mᴍ). This implies that the contribution of dark energy (or the forces and phenomena it represents) becomes significant when it dominates over the conventional matter mass.

Finally, gravitating mass (Mɢ) being less than zero (Mɢ < 0) indicates that this total mass (including both matter and effective mass) dominates the gravitational behavior of the universe. When the gravitating mass is negative, it suggests that gravity may exhibit repulsive characteristics, contributing to the structure and dynamics of the universe in a way influenced by dark energy.

In summary, the statement highlights a scenario where dark energy, represented by the effective mass, plays a dominant role in the gravitational dynamics of the universe when it exceeds the contribution from ordinary matter, especially under conditions where the gravitating mass is negative (Mɢ < 0), potentially leading to repulsive gravitational effects.

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