27 August 2024

Classical Mechanics and Negative Effective Mass: Foundations for 'Extended Classical Mechanics'


27-08-2024

A comprehensive approach for the research paper 'Extended Classical Mechanics: Negative Effective Mass and Acceleration Boost in Motion and Gravitational Dynamics' by Soumendra Nath Thakur involves establishing 'effective mass' within the framework of classical mechanics and integrating the concept of 'negative effective mass' using insights from the research by Chernin et al in Dark Energy and the Coma Cluster of Galaxies. This combined approach will provide a robust foundation for exploring acceleration dynamics and gravitational effects.

25 August 2024

Consistency of Mass Reduction and Negative Effective Mass in Classical Mechanics:


Soumendra Nath Thakur
ORCiD: 0000-0003-1871-7803

25-08-2024

The study by A. D. Chernin et al., in "Dark Energy and the Coma Cluster of Galaxies," applies Newtonian mechanics to model gravitational interactions, integrating both matter mass and the effective mass of dark energy. In this framework, potential energy—including that of dark energy—plays a crucial role. Dark energy's potential drives the accelerated expansion of the universe, highlighting the transformation of potential energy into kinetic energy. This approach aligns with the concept of negative effective mass, suggesting that the apparent reduction in matter mass due to its potential energy in gravitational contexts parallels the negative effective mass attributed to dark energy. This perspective enhances our understanding of the relationship between gravitational mass, potential energy, and dark energy dynamics within the classical mechanics framework.

This statement is scientifically consistent. Here’s why:

Integration of Concepts: The statement accurately integrates the principles of Newtonian mechanics with the concept of negative effective mass, as described in A. D. Chernin et al.'s research.

Role of Potential Energy: It correctly highlights the role of potential energy (including dark energy) in influencing gravitational dynamics and the universe's expansion.

Parallel with Negative Effective Mass: The statement draws a parallel between the apparent reduction in matter mass due to its potential energy and the negative effective mass of dark energy. This comparison is scientifically valid in the context of theoretical models and aligns with the idea that potential energy and negative effective mass can influence gravitational dynamics similarly.

Classical Mechanics Framework: It maintains consistency with classical mechanics by discussing how potential energy, when transformed into kinetic energy, impacts gravitational interactions, without deviating from established principles.

Overall, the statement accurately reflects the scientific concepts involved and aligns with the discussions about the interplay between mass reduction, negative effective mass, and gravitational dynamics.

Acceleration Boost in Motion and the Role of Negative Effective Mass:


Soumendra Nath Thakur
ORCiD: 0000-0003-1871-7803
25-08-2024

Acceleration Boost by Negative Effective Mass under Newton's Second Law of Motion

This scenario examines how Newton's second law of motion interacts with the concept of negative effective mass to influence an object's acceleration.

Newton's second law of motion asserts that an object's acceleration is directly proportional to the net force acting on it and inversely proportional to its mass. When considering negative effective mass, this law introduces an additional dimension: 'assisting acceleration' or 'acceleration boost.'

Negative effective mass modifies the system's dynamics by effectively decreasing the system's resistance to acceleration. This reduction means that for a given applied force, the object with negative effective mass will experience a greater acceleration compared to an object with positive effective mass. This effect can be understood as a type of mechanical advantage, where less force is required to achieve a given level of acceleration. In essence, the system's resistance to acceleration is lowered, optimizing the force dynamics and leading to enhanced motion.

Reduction in Gravitational Pull and the Role of Negative Effective Mass:

Soumendra Nath Thakur
ORCiD: 0000-0003-1871-7803
25-08-2024

Acceleration Boost by Negative Effective Mass under the Inverse-Square Law of Gravity

This scenario examines the interplay between the inverse-square law of gravity and the concept of negative effective mass, focusing on how these factors collectively influence an object's motion.

According to the inverse-square law of gravity, as an object moves away from Earth's surface, the gravitational force exerted on it decreases with the square of the distance. In this context, the concept of negative effective mass becomes pivotal. Negative effective mass introduces an 'assisting acceleration' (aᵉᶠᶠ) or 'acceleration boost' by effectively reducing the object's resistance to gravitational force.

The reduction in gravitational influence due to negative effective mass arises because this mass type is not a static property but is generated as a result of the object's motion or elevation. As the object moves or is elevated, the negative effective mass begins to play a significant role, diminishing the overall gravitational pull on the object. This effect enables the object to accelerate more readily, even as it travels farther from the Earth.


24 August 2024

The Main Difference in Falling Objects:

Classical Interpretation: In the classical view, the equation   applies, where gravitational mass equals matter mass, with no concept of negative effective mass. Acceleration is proportional to the mass of the attracting object and follows the inverse-square law, unaltered by any external mass properties.

With Negative Effective Mass: The equation 

Mɢ = Mᴍ + Mᵉᶠᶠ