Abstract
Time symmetry is a powerful tool in theoretical physics. Symmetry in physics means invariance – lack of change- under any kind of transformation. It has become evident over the years that practically all laws of nature originate in symmetries. Physics is the study of that symmetry.
One of the prevailing concepts about time is that you can reverse the symmetry of time.
The reversal of time is only relevant in social interactions where one can observe the symmetrical nature of interactions. Where you see symmetrical interactions and asymmetrical interactions. This is accomplished on a singularity of one’s person and their self-assessment of evaluation in the present state.
In astro-physics in recent experiment if you have three moving objects (black holes) moving towards each other and past each other in complicated orbits. In the end one black hole leaves the other two. The second simulation starts with the end of the first situation and the escaped third black hole tries to turn back time to the initial situation. It turns out that time cannot be reversed in 5 percent of the calculations.
The scientist involved explained irreversibility using the concept of the Planck length. “The movement of the three black holes can be so enormously chaotic that something as small as the Planck length will influence the movements. The disturbances the size of the Planck length have an exponential effect and break the time symmetry.”
They further add, “So not being able to turn back time is no longer just a statistical argument. It is already hidden in the basic laws of nature.”
This aligns itself with Einstein Laws of Relativity and Hawking’s idea of the concept of time being a singularity in its origin. Time having its own sub space and being 2 dimensional.
Time as an elementary force particle having 0 mass ,0 energy, 0 spin until it is disturbed by mass occupying space, spin and velocity. Having an X, Y, Z axis with a starting singularity of 0. It would bounce from its zero state T = zero to T = + 1, or -1.
Time symmetry is a powerful tool in theoretical physics. Symmetry in physics means invariance – lack of change- under any kind of transformation. It has become evident over the years that practically all laws of nature originate in symmetries. Physics is the study of that symmetry.
One of the prevailing concepts about time is that you can reverse the symmetry of time.
The reversal of time is only relevant in social interactions where one can observe the symmetrical nature of interactions. Where you see symmetrical interactions and asymmetrical interactions. This is accomplished on a singularity of one’s person and their self-assessment of evaluation in the present state.
In astro-physics in recent experiment if you have three moving objects (black holes) moving towards each other and past each other in complicated orbits. In the end one black hole leaves the other two. The second simulation starts with the end of the first situation and the escaped third black hole tries to turn back time to the initial situation. It turns out that time cannot be reversed in 5 percent of the calculations.
The scientist involved explained irreversibility using the concept of the Planck length. “The movement of the three black holes can be so enormously chaotic that something as small as the Planck length will influence the movements. The disturbances the size of the Planck length have an exponential effect and break the time symmetry.”
They further add, “So not being able to turn back time is no longer just a statistical argument. It is already hidden in the basic laws of nature.”
This aligns itself with Einstein Laws of Relativity and Hawking’s idea of the concept of time being a singularity in its origin. Time having its own sub space and being 2 dimensional.
Time as an elementary force particle having 0 mass ,0 energy, 0 spin until it is disturbed by mass occupying space, spin and velocity. Having an X, Y, Z axis with a starting singularity of 0. It would bounce from its zero state T = zero to T = + 1, or -1.