Being Psychotic

We have seen that a positive gravity particle can acquire a negative gravity particle and then attract an electron.  If a hydrogen nucleus also contains a gravity particle or two, it is possible that the nucleus attains an extra electron and becomes $H^{-}$.  But how does the nucleus with its singular positive charge particle contains positive gravity particles?

In this dream, these particles do not interact.  An electric field do not interact with a gravitational field.

A spinning $p^{+}$, however generates a gravitational field.  The in-going, negative end of this field will attract a positive gravity particle.  This is a weak interaction, weaker than the attraction between particles of opposite sign.

This is not a stable configuration.  It is possible to image that $g^{+}$ going into spin but what would cause the orbit of $p^{+}$ to spin along its diameter?  $p^{+}$ is then in motion with one other degree of freedom, which is permissible in 3D space; it has two spins.

But why?

When $g^{+}$ goes into a spin, it generates a magnetic, $B$ field.

Being psychotic, why stop here?  So, the negative end of this $B$ field attracts a positive temperature particle and the whole configuration goes into a spin giving $p^{+}$ a third spin, and $g^{+}$ two spins.

The spinning positive temperature particle generates a electric, $E$ field.  This positive temperature particle has only one spin.

The order of these particles is arbitrary, we could have started with a positive gravity particle and build up from there.  In which case, $g^{+}$ has three spins, $T^{+}$ has 2 spins and the last $p^{+}$ being attracted to the negative side of the $E$ field generated by a spinning $T^{+}$ particle has only one spin.

This last scenario is not at all twisted nor psychotic.  Have a cup of NoClass 3 in 1 coffee + psychotics on me!