One of the shortcomings of the ISU has been that there isn’t anything that can be readily tested.

One aspect of the ISU that I have introduced is matter formation from T1 energy.

I have predicted that protons form from T1 energy and protons are stable groupings of EEPs. Once the stable proton forms, EEPs continue to be attracted to it but because of its stability additional EEPs can not attach to the proton but are held to the proton by their natural attraction.

Once the proton has attracted enough EEPs the electron forms from those EEPs.

Therefore the ISU predicts that if you remove the electron from a hydrogen atom leaving only a proton at rest, a new electron will form around the proton.

However, several conditions in which the original hydrogen atoms formed have changed since the period of abundant matter formation that started the Hydrogen Epoch thirteen or fourteen billion years ago. Energy density of the expanding ball of T1 energy has been significantly reduced by both matter formation and by continued expansion. It is impossible to restore those conditions, even in a lab.

To test this prediction it would be necessary to allow the proton to exist without any other interaction for a long enough period of time for it to attract the huge number of EEPs required to form an electron from the energy density of T1 space.

I don’t know how many EEPs are required, how long it would take to form the electron in these reduced energy density conditions, or how to tell when the electron has formed. I don’t even have a basement.

If the proton has been accelerated during the electron removal then that would be an added complication to the testing because I wouldn’t expect an accelerated proton to attract EEPs in the same way that a proton at rest would.