Mainstreamers’ Physics Theories Doomed?: 19 False Axioms of Physics by Lajtner Tamas

Author:Lajtner, Tamas [Lajtner, Tamas]
Language: eng
Format: epub
Published: 2020-04-21T16:00:00+00:00

FIG. 23-1 Space wave model of gravity.

Gravitation occurs when space shifts. Model not proportional.

(Credit CC BY–NC–SA 4.0 T. Lajtner, Lajtner.com)

The big (orange) mass makes the frequency of Space waves (time wave) smaller on the left side of the small (blue) mass. On the other side of the small mass, the frequency of Space waves (time wave) is greater. The greater frequency moves the mass forward.

Or even more clearly, although the statement may sound less scientific “You’ll get a slap that sends you flying!” If the small planet gets four slaps from the right and one from the left, it will move left. Since Space waves are time waves from the viewpoint of masses, we can state that gravity occurs when time shifts.

Gravity is created between two or more bodies. You have seen that one body without force acting upon will accelerate on its own.

Now Let us see FIG. 11–2. displayed earlier this way: a big mass is at “O” and a small mass is at “a”. If the small mass is much smaller than the big one, so it does not significantly change the wavelength of the Space wave, then from the viewpoint of the small mass the wavelength of the Space wave is an accelerator for the small mass, where a t =a t+1 and time t=1,2,3…

If the smaller mass changes the wavelength significantly, the accelerator effect of space remains untouched.

In case of two masses there are two sources of gravity waves. Both masses create waves. These waves between masses can form a standing wave. Gravity effects the same force for both masses. Standing wave seems to be a right solution.. See Newton’s Law of Gravity and Einstein’s geometrical spacetime. As mentioned earlier the modified wavelengths of Space wave generated by mass can be calculated using the density of mass, but a more detailed calculation is also possible using the stress–energy tensor T μv of general relativity. Using both methods, we can figure out how the elements of the stress–energy tensor modify the wavelength of Space wave compared to mass density. This method leads to “quantum relativity”.

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