23. Open questions

We have come to the end of what The New Physics can tell us at this point in time (April, 2024.) It is appropriate to admit here that there are many questions which are unanswered by The New Physics. Some of the ones that jump out at us are:

  • It would be great to understand the density of the space in the nuclear quantum layers.
  • The New Physics adopts the same model of time as is used in Special Relativity; is there anything that should change here?
  • Some of The New Physics model areas seem more conjectural than others. In particular, the model of what is going on in diffraction is difficult to reconcile with the scale of nuclear quantum levels, and the dark matter/dark energy conjectures are pretty far out there.
  • The New Physics does not very clearly explain the phenomenon of quantum entanglement. The New Physics shows that all particles are entangled by nuclear quantum levels, but should some linkages be stronger than others? Or is quantum entanglement just a reflection of the usual nuclear quantum level linkages? Is entanglement just gravity (merging of quantum levels) when the particles are particularly mobile?
  • What is the internal structure of small particles like electrons that prevents them from travelling at the speed of light?
  • The New Physics considers photons to be bubbles in space with no internal charged components (like quarks.) High energy gamma ray photons can be larger than even protons, based on the energy per unit volume derived from proton creation. Their radius can apparently exceed their wavelength, so what happens at this point? Does the second nuclear (poorly named for photons!) quantum level become the new “wavelength”? Or are the wave effects (e.g. diffraction) no longer detectable?

In addition to these few points, there are hundreds of observations that have been explained by Quantum Mechanics over the years that The New Physics has not yet tried to address. It is starting 100 years late. There is much to do. Please help us resolve these issues so our understanding of the Universe will continue to grow.

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