23 January 2024
Soumendra Nath Thakur.
ORCiD: 0000-0003-1871-7803
Relative time arises from relative frequencies. It involves the phase shift in relative frequencies caused by an infinitesimal loss in wave energy and the corresponding enlargement in the wavelengths of oscillations. These effects take place in any clock situated between relative locations due to relativistic effects or differences in gravitational potential. This leads to an error in the reading of clock time, which is mistakenly portrayed as time dilation.
Abstract:
The research paper titled "Relativistic Effects on Phaseshift in Frequencies Invalidate Time Dilation II" explores an alternative perspective on time. The abstract posits that relative time is intricately connected to relative frequencies, introducing a novel interpretation of the observed phenomena. The key findings challenge the conventional understanding of time dilation, asserting that the perceived errors in clock readings are inaccurately attributed to relativistic effects and gravitational potential differences.
Key Aspects:
Relative Time and Frequencies:
The paper proposes a direct link between the perception of time and the frequencies of a clock's oscillations. This suggests that variations in frequency impact an observer's interpretation of time.
Phase Shift in Frequencies:
An innovative aspect is the introduction of a phase shift in relative frequencies. This implies a change in the alignment or timing of oscillations, potentially influenced by external factors such as relative motion or gravitational potential.
Infinitesimal Loss in Wave Energy:
The research suggests a minor loss in wave energy, affecting the oscillations of a clock. This loss may be attributed to various factors influencing the clock's operational conditions.
Enlargement in Wavelengths:
Another key finding is the proposal of an enlargement in the wavelengths of oscillations, impacting the fundamental properties of the wave and, consequently, the functioning of the clock.
Effects on Clocks Between Relative Locations:
The described alterations in wave properties are posited to take place in any clock situated between relative locations, indicating a universal impact rather than a phenomenon confined to specific conditions.
Relativistic Effects or Gravitational Potential:
The paper attributes these effects to relativistic influences or differences in gravitational potential, aligning with conventional concepts in time dilation theory.
Resulting Error in Clock Time:
A pivotal conclusion is that these effects result in an error in the reading of clock time. The proposed alterations in wave properties lead to inaccuracies in time measurement by clocks.
Mistaken Portrayal as Time Dilation:
The abstract challenges the traditional interpretation that associates observed errors in clock readings with time dilation, asserting that this attribution is mistaken.
By emphasizing the "resulting error in the reading of clock time," the paper highlights the discrepancy between observed errors and the conventional interpretation of time dilation. This challenges existing paradigms and encourages a reconsideration of the underlying principles governing our perception of time.