15 September 2024
Clarifying Dark Matter, Dark Energy, and Gravitational Dynamics: A Response to Robert A. Phillips
Redefining Mass Profiles in Extended Classical Mechanics:
13 September 2024
Summary of Extended Classical Mechanics: Vol-1 - Equivalence Principle, Mass and Gravitational Dynamics
Dark Energy Effective Mass (Mᴅᴇ):
In the research paper "Dark energy and the structure of the Coma cluster of galaxies" by Chernin et al. (2013), the concept of Dark Energy Effective Mass () is introduced as part of the analysis of the Coma cluster's structure. The paper explores how dark energy, characterized by its antigravitational effects, influences the structure of galaxy clusters.
Description of Dark Energy Effective Mass:
Definition and Role:
- Dark Energy Effective Mass () is defined as the effective mass of dark energy that contributes to the gravitational dynamics of a galaxy cluster. Unlike traditional matter, dark energy has a negative effective mass () due to its repulsive, antigravitational properties. This negative mass affects the total gravitating mass of the cluster.
Mathematical Formulation:
- The effective mass of dark energy within a spherical volume of radius R is given by:
where is the density of dark energy. For instance, at different radii:
- At Mpc:
- At Mpc:
- At Mpc:
- The effective mass of dark energy within a spherical volume of radius R is given by:
where is the density of dark energy. For instance, at different radii:
Equation for Total Gravitating Mass:
- The total gravitating mass () within a radius R of a galaxy cluster is the sum of the matter mass () and the dark energy effective mass (): Mg = Mm + Mde This equation allows us to calculate the total gravitating mass of the cluster by adding the matter mass to the dark energy effective mass. For example, at Mpc, the total gravitating mass approximates .
Implications:
- The negative effective mass of dark energy implies that, at large distances from the cluster center, the dark energy's repulsive force can exceed the gravitational attraction of the matter within the cluster. This antigravitational effect becomes significant at distances beyond the zero-gravity radius (), beyond which the dark energy's influence dominates.
The study by Chernin et al. highlights the substantial impact of dark energy on the structure and mass estimation of galaxy clusters, underscoring its role in shaping cosmic structures and influencing their dynamics.
11 September 2024
Exploring a provocative hypothetical scenario where galaxies emerged from gravity rather than from matter:
Soumendra Nath Thakur
11-09-2024
Mr. Martin T. Bosnev's concluding statements explore a provocative hypothetical scenario where galaxies emerged from gravity rather than from matter, fundamentally challenging current cosmological models. In this view, gravity is considered a pre-existing phenomenon, independent of mass and energy, suggesting a reversal in the traditional relationship between matter and gravity. Instead of spacetime being shaped by mass and energy, as posited by general relativity, gravity could independently structure spacetime, shaping the universe at a deeper level. This would imply that galaxies originate from gravitational wells that exist without the presence of matter, with gravity acting as a funnel to channel matter and form galaxies. This conception presents gravity as a primary force not contingent on mass, thereby contradicting the standard model and quantum mechanical interpretations, and suggesting a universe where gravity exists independently from matter, challenging the notion of fundamental entities like particles or matter. Bosnev's hypothesis ultimately calls for a new theoretical framework that integrates gravity, quantum mechanics, and spacetime, potentially replacing general relativity and the Standard Model with a theory where gravity exists autonomously from matter.
Points in view of the description:
1. Galaxies emerged from gravity rather than from matter.
2. Gravitational force is considered a pre-existing phenomenon rather than a result of mass and energy.
3. Spacetime is not shaped by mass and energy.
4. Galaxies originate from gravitational wells independently, with gravity channelling matter through a funnel, creating galaxies.
5. Gravity is presented as a primary force independent of mass, contradicting the standard model and quantum mechanical interpretations.
6. Gravity's existence independent of matter suggests a universe with fundamental forces and fields.
7. A new theory is needed to allow gravity to exist independently of matter, potentially replacing existing theories.