Extended Classical Mechanics: Vol-1 | Photon Dynamics in ECM | Massless Objects in ECM | Massless-to-Massive | Mass Concepts in ECM | Mass Gravity Curvature | Gravitational Collapse | Formulation of ECM | Extended Photon Dynamics | Foundation of ECM | Dark Energy | Black Hole Motion | Universal Antigravity Motion

 

About Massless Objects, Negative Effective Mass, and Anti-Gravitational Motion in Extended Classical Mechanics:

Comment:

This comment is on Extended Classical Mechanics (ECM) and massless objects! It proposes some really interesting ideas about anti-gravitational forces and energy exchange mechanisms for massless particles, going beyond conventional understandings of inertia and speed limits. The connection to Planck scales is particularly intriguing. It suggests a need for a revised understanding of how gravity interacts with objects at the quantum level.

Author: Soumendra Nath Thakur  

Date: February 18, 2925

Abstract:

This paper explores the behaviour of massless objects within the framework of Extended Classical Mechanics (ECM), proposing that these objects exhibit anti-gravitational forces due to their negative effective mass.

Key Concepts:

1. Massless Objects and Anti-Gravitational Force:

   - Massless objects possess an inherent anti-gravitational force against surrounding gravitational influences.

   - This phenomenon is attributed to their negative apparent mass (-Mᵃᵖᵖ) and negative effective mass (Mᵉᶠᶠ < 0).

2. Energy Expenditure and Interaction:

   - While interacting with gravitational fields, massless objects expend energy, which is not derived from their inherent energy.

   - They gain energy through gravitational interactions with massive bodies, retaining this energy upon escaping gravitational fields.

3. Motion Dynamics:

   - The motion of massless objects is influenced by their negative apparent mass, leading to continuous motion rather than inertia.

   - The speed of these objects is constrained by Planck scales, specifically the ratio of Planck length to Planck time.

4. Wavelength and Speed Limit:

   - If the wavelength of a massless object exceeds the minimum Planck length, its speed may surpass conventional limits, resulting in strong anti-gravitational forces.

   - This introduces a new perspective on the speed limits of massless bodies.

5. Gravitational Interactions at Quantum Scales:

   - At scales smaller than the Planck length, gravitational interactions and energy transformations behave differently, becoming imperceptible under traditional observation methods.

   - The principle of energy conservation implies that energy does not vanish but transforms into higher, undetectable energy states.

Conclusion:

The ECM framework challenges conventional mechanics by providing new insights into the motion, gravity, and energy transformation of massless objects. It opens avenues for further research into the fundamental nature of gravity and motion beyond the Planck scale.