ORCiD: 0000-0003-1871-7803 Link: Research Gate DOI: http://dx.doi.org/10.32388/UJKHUB
Abstract:
Relativistic time encompasses a range of intriguing phenomena, including time distortion, error in time, time delay, and time shift. It emerges from the intricate interplay of relative frequencies influenced by relativistic effects, such as motion and variations in gravitational potential. This abstract concept can be understood as a phase shift in relative frequencies, driven by two fundamental mechanisms. The first mechanism involves the infinitesimal loss of wave energy in oscillators with mass, resulting in time distortion or error in time measurement. This effect arises from the impact of motion on time measurement, manifesting as a phase shift or an error in the perception of time. The second mechanism centers on the infinitesimal loss of energy in propagating waves, leading to time delay or time shift. This phenomenon extends beyond motion and encompasses variations in gravitational potential. As a result, it introduces variations in the passage of time. Together, these mechanisms highlight the dynamic and interconnected relationship between relative frequencies, energy, and the perception of time in the context of relativistic effects. This abstract illuminates the multifaceted nature of relativistic time and the critical role it plays in our understanding of the fundamental principles governing the universe.
Definition:
Relativistic time encompasses phenomena of time distortion, error in time, time delay, and time shift.
Description:
Relativistic time emerges from the interplay of relative frequencies under the influence of relativistic effects, such as motion or gravitational potential difference. It can be understood as a phase shift in relative frequencies due to two primary mechanisms:
Infinitesimal Loss of Wave Energy in Oscillators with Mass (Time Distortion/Error in Time): This aspect of relativistic time arises from the influence of motion on time measurement. It manifests as a phase shift or error in time measurement due to the loss of wave energy in systems with mass.
Infinitesimal Loss of Energy of Propagating Waves (Time Delay/Time Shift): Another facet of relativistic time relates to the loss of energy in propagating waves, resulting in a time delay or time shift.
Both of these effects are not limited to motion but also encompass gravitational potential differences, leading to variations in the passage of time. The associated phase shift in relative frequencies reflects the relative energy loss experienced by these waves.
Citation:
Thakur, Soumendra Nath; Samal, Priyanka; Bhattacharjee, Deep (2023). Relativistic Effects on Phaseshift in Frequencies Invalidate Time Dilation II. TechRxiv. Preprint. https://doi.org/10.36227/techrxiv.22492066.v2
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