Even the electric constant for permittivity will remain unchanged. This is because time and distance is used to determine this constant. The only possible ways to detect a difference is for the local observer to either look out of his reference frame, in which case he will see thing around him having changed size and speed, or he has to count the number of neutrinos in a given volume of space, in which case he will discover a difference.
The casual observer, discovering a local change in number of neutrinos may very well conclude that neutrinos have no physical function. After all, the observer cannot see anything locally to suggest something is going on. However, once the observer looks out of his reference space he may realize the connection between what is happening and the density of neutrinos measured.
If the number of neutrinos in a given volume of space has increased, things around the observer will have become smaller and more frantic. If there is a detectable decrease in local neutrinos, things around the observer will look bigger and more sluggish.
The effect of an increase or decrease in neutrinos can only be detected when measured relative to another space. The easiest way to do this is to set up an electric field. This will increase or decrease the number of neutrinos in the affected region by either trapping them or expelling them, depending on the force produced being attracting or repelling. Experiments can then be made by observers staying well away from the electric field.
Looking into the affected space, the outside observer will detect an increase in size and a corresponding slowing down of time if the electric field is repelling, and the opposite effect if the electric field is attracting.
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| Neutrinos communicating the electric force |
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