In the presented schemes for \(\beta\) decays are correct, \(T^{+}\) emitted from the nucleus during \(\beta^{-}\) decay is the electron anti-neutrino and \(T^{-}\) changed from \(p^{+}\) and emitted during \(\beta^{+}\) decay is the electron neutrino.
If \(T^{+}\) and \(T^{-}\) are particles that produces \(B\) fields, they are then the magnetic monopoles.
But under normal circumstances these particles behave as waves not as particles. This is the reason why they are not noticeable as opposing particles, like opposing charges.
Furthermore, \(g^{+}\) particles are neutrons. But what are then, \(g^{-}\) particles?
If all nuclei have \(g^{+}\) particles, then Earth should be a positive gravity particle not a negative particle.
We may have a problem.
Correcta. Correcta.
