By: Soumendra Nath Thakur. 22 March 2024
It's essential to recognize that various factors beyond relativistic gravity, such as temperature, mechanical forces, motion, and other external influences, can distort stable oscillations. Thus, attributing distortions solely to gravitational effects is overly simplistic.
Addressing these distortions requires a comprehensive approach, involving the calculation of all external influences through correlation according to universal standards. In this regard, Newtonian mechanics offers a more robust framework for understanding the impact of external factors on oscillations compared to the limitations of relativistic gravity theory.
It's worth noting that while relativistic gravity plays a role, particularly in extreme scenarios, its practical impact may be better understood through a Newtonian lens in many cases.
This version emphasizes the importance of considering multiple factors in understanding clock oscillation distortions and highlights the comparative strengths of Newtonian mechanics in addressing these complexities.
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Previous version 2:
The accountability for all types of external effects on clock oscillation extends beyond just relativistic effects:
Not only gravitational effects due to relativity, but also factors such as temperature, mechanical forces, motion, and any other external influences can lead to distortions in stable oscillations. Therefore, claiming that gravitational effects are solely responsible is not accurate; various external influences can cause similar distortions in oscillations.
The proper approach to address these distortions is by calculating all of them through correlation according to universal standards. Newtonian mechanics provides a better framework for accounting for these external impacts compared to the flawed relativistic theory of gravity in spacetime.
It's important to note that relativistic gravity alone cannot adequately address these distortions since gravity behaves more in line with Newtonian mechanics in practical applications."
The hashtags at the end indicate the key topics of the discussion: #externaleffects, #clockoscillation, and #timedistortion.
Previous version 1:
Accountability of all forms of external effects on clock oscillation, not only relativistic effects:
Not only relativistic gravity, but also temperature, mechanical forces, motion and any other external influence will cause distortions in stable oscillations, not just gravitational effects.
So your claim of the gravitational effect is not exclusive, but common to other external influences those cause distortions in the oscillations.
Calculating all distortions through correlation according to universal standardization is the only way to address these.
Newtonian mechanics can better account for all such external impact related distortions than the flawed relativistic gravity of spacetime.
Only relativistic gravity does not address these of course, as gravity is not only relativistic but more Newtonian in practical applications.
#externaleffects, #clockoscillation, and #timedistortion.
