A scientific misconception about time dilation

(Summarised) 

About time and wavelength dilation: 

Soumendra Nath Thakur

 Email: postmasterenator@gmail.com

orcid.org/0000-0003-1871-7803

22 Sep 2022, 09:00

A scientific misconception about time dilation is described as:

The equation of time dilation t'= t/√ (1-v²/c²) is wrong; where t' is dilated time, t proper time, v relativistic speed and c speed of light in free space.

Real events invoke time. The error in the said equation is that the proper time (t) can never be modified through external influence or interaction or interference of real events, with speed or under gravity, to get time dilation (t’).

It would be wrong to try to modify cosmic proper time progressing in its uniformed and irreversible succession that too in higher dimension above the three-dimensions of space. Speed or gravity can never interfere time (t) to get time dilation (t'). So there is no time dilation rather it is a wavelength (λ) dilation of the clock oscillation.

Experimental results

Experiments made in electronic laboratories on piezoelectric crystal oscillators show that the wave corresponds to time shift due to relativistic effects.

The wavelength (λ) of a wave is directly proportional to the time period (T) of the wave, that is λ ∝ T. 

Where, speed v or c = f λ. 

λ = v/f = c/f and T = 2π/ω. 

ω = 2π/T = 2πf. as T = 1/f, f is frequency. The speed c is constant in free space.

1. We get a wave corresponds to time shift.

For example, 1° phase shift on a 5 MHz wave corresponds to a time shift of 555 picosecond (ps). The proof is:

We know, 1° phase shift = T/360. 

As T=1/f,  

1° phase shift = T/360 = (1/f)/360.

For a wave of frequency, f = 5000000 Hz, we get the phase shift in degree (°) 

= (1/5000000)/360

= (5.55 x 10^-10)

= 555 ps. 

Therefore, for 1° phase shift for a wave having wavelength λ = 59.95m, and frequency f = 5 MHz, the time shift (time delay) Δt = 555 ps (approx). 

 

2. Moreover, for 360° phase shift or, 1 complete cycle for a wave having frequency 1Hz (of a 9192631770 Hz wave); the time shift (time delay)    

Δt = 0.00000010878277570776666 ms (approx).

Time shift of the caesium-133 atomic clock in the GPS satellite in space:

For 1455.50003025° phase shift (or 4.043055639583333 cycles) of a 9192631770 Hz wave; time shift (time delay) 

Δt = 0.0000004398148148148148 ms (approx) or, 0.038 millisecond, or, 38 microsecond time is taken per day.

Conclusion

The wavelength dilation due to relativistic effects on the clock oscillations result corresponding error in the reading of clock time, wrongly presented as time dilation Ref. Original paper - Effect of wavelength dilation in time

Relativistic effects cause error in time reading | Events invoke time | The Planck scale limits our sensual perception | Time distortion occurs only in clocks with mass under relativistic effects, not in electromagnetic waves | Photon paths bend due to momentum exchange, not intrinsic spacetime curvature | The Dynamics of Photon Momentum Exchange and Curvature in Gravitational Fields | Relativistic effects and photon-mirror interaction -energy absorption and time delay | Bing Answer | Oscillation | Relative Time | Scientific misconception | About time, wavelength | Error in reading time | Effect of wavelength | Phase shift in frequency | Scientific misconception | About time, wavelength | Satellite Clock | Time shift caesium-133 | Time shift caesium-133

Oscillation | Relative Time | Scientific misconception | About time, wavelength | Error in reading time | Effect of wavelength y | Phase shift in frequency y | Scientific misconception y | About time, wavelength y | About time, wavelength g