Makes it positive. In my book, its a +2 and a -1. I think the quark model is a bit mixed up. The proton got that way because the magnetic field was crowded, and pushed back. In the process, it caused a half quant shift in the nuclear and electron. It is like I say, Nyquist is dumb and asymmetrical. Nyquist constructed the nuclear and charge fields at Pauli speed, then discovered a bit of a goof later. That quantum shift makes the magnetic field stable, but having no real null (matter). The compression by the magnetic got us the hydrogen.
Our entire atomic structure was likely a Nyquist error, and most of the fractional quantum numbers resulted. All the quarks have the issue.
Here is what happened. The magnetic field was inverted, mainly because Nyquist took too much phase shift out of the first two fields, then it actually inverted the magnetic phase to rebalance. That caused the first two fields to break Pauli by half quant, a phase upshift in the nuclear, +2, and a phase downshift in the electrical, -1. So the null point of the electron, for example, has a -1. Still quantized, and stable but it is funny mass.
Normally, if Nyquist vacuum phase can be called normal, the magnetic field should have been quantized to pass right thru the previous two fields, unnoticed. The inversion put the positive phase right in the middle of the nuclear and upshift is quant levels, and down shifteds the electrical. The electron bound tightly with kinetic energy and we get hydrogen.
How we got the heavy atoms around these parts is a mystery I am looking at. But most likely the magnetic, absent a Null, and inverted phase, simply started squeezing bunches of hydrogen, well before any matter got dense enough to suffer gravity compaction. It takes less than a minute to move hydrogen to the center of the Sun, so I can see, but cannot calculate, the fusion process.
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