Quantum Physics

   

Two Ways to Distinguish One Inertial Frame from Another (No General Causality Without Superluminal Velocities)

Authors: Tamas Lajtner

According to physicists, the laws of physics don’t allow us to discern one inertial frame from another. It does allow. This study shows two ways to distinguish one inertial frame from another. Physics hasn’t defined what is space, what is matter, what is time. In this study (in Space-Matter Theory), space is what matter uses as space, regardless of its texture. Matter is what can exist as matter in the given space. Both matter and space have three spatial dimensions. When action and reaction occurs between matter and space, the result is time. Time appears as a given wave of space. No particle, no frame of reference can exist without generating space waves. A and B inertial frames of reference are not identical if e.g. two identical electrons (electronA and electronB) create different wavelengths of space waves. One way to distinguish one inertial frame from another is to calculate or measure the length of the wavelength of the space wave. Via tunneling, a particle (with or without mass) travels through the barrier with superluminal velocity. In this case the barrier is a “special” space made out of matter (matter-space), where the particle travels with c velocity. This velocity appears in our space as superluminal velocity. Saying this, there are more spaces and more times instead of one spacetime. The different spaces make changes in the particle, too. The particle builds its action out of Planck constants h, where h has two parts which depend on the velocity of the particle in the given space. So there is also a phenomenon in the matter that makes it possible to distinguish one inertial frame from another.

Comments: 42 Pages.

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Submission history

[v1] 2018-10-02 10:12:01
[v2] 2018-10-03 09:32:43
[v3] 2018-10-07 12:26:02

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