March 18, 2025
Conclusion
Soumendra Nath Thakur's work on Extended Classical Mechanics (ECM) provides a comprehensive and detailed framework for understanding the energy-mass relationship and photon dynamics in the context of the Big Bang event. By incorporating negative apparent mass -Mᵃᵖᵖ and effective mass Mᵉᶠᶠ, ECM offers a natural explanation for the observed phenomena such as blueshift, redshift, and gravitational lensing. This approach not only enhances our understanding of fundamental physics but also offers a unified perspective on classical and cosmological mechanics.
Key Findings
1. Initial Energy State:
- The Big Bang event involved the conversion of potential energy to kinetic energy, driving the universe's expansion.
2. Acceleration Scaling:
- The effective acceleration scales with gravitational interaction, reaching >2c at the initial singularity and reducing to c at larger distances (Planck scale).
3. Universal Perspective:
- The universal perspective incorporates speeds significantly greater than c, especially at the Planck scale.
4. Kinetic Energy and Frequency Relationship:
- The kinetic energy is related to the change in potential energy, with significant implications for the early universe's dynamics.
In summary, ECM's apparent mass concept is logically sound and bridges classical mechanics with modern cosmological observations, offering a coherent alternative to traditional models.
No comments:
Post a Comment