It is the presence of photons inside of atomic nuclei that give us time.
However, if an atomic nucleus was to travel at the speed of light, strange things would happen. The neutrinos inside the nucleus, themselves traveling at the speed of light, would no longer be able to produce pressure in the direction of the nucleus' motion.
Neutrinos moving in the same direction as the nucleus would never reach the front of the nucleus to produce pressure. Neutrinos moving the other way would tend to vacate the nucleus.
An atomic nucleus traveling at the speed of light would be completely flat with no space inside of it for either neutrinos or photons. Time would stop.
This is why ordinary matter cannot travel at the speed of light. No matter how much energy we spend trying to speed up an atomic nucleus that travels at the speed of light, nothing will happen. Time has stopped for the nucleus, so no action to it is possible.
This means that when we speed up matter towards the speed of light, it becomes flatter. This is precisely what Einstein predicted in his theory. However, this has nothing to do with space as such. It has to do with the neutrinos inside atomic nuclei.
Again, we see that the Velcro model yields the same results as conventional theory. Not only is the sub-atomic possible to explain using the Velcro model. Relativistic effects can be explained as well.
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| Photon traversing a moving particle of ordinary matter |
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