Which is suggesting that the outer particle effects the physical properties of the element. Magnetic materials/elements will have \(g^{+}\) particles as the outermost particle producing a \(B\) field in spin. Heavy elements will have \(p^{+}\) particles as outermost particle in their nucleus configuration; spinning \(p^{+}\) particles generates a gravitational field that interacts with Earth's gravitational field producing the effect of heavy mass. Metals have \(T^{+}\) particles as the outermost particle, and are conductors of heat and/or electricity. The outermost \(T^{+}\) particle in spin produces an electric field, \(E\); the negative ends of which forms up as electron flow conductive channels in the lattice of electric conductors. When such channels fail to form, the metal is a poor conductor of electricity. This might explain why metals that are good conductors of heat need not be good conductors of electricity also.
Have a psychotic night! Without psychosis I cannot possibly break with conventional science. However, if all these are true, you are the one instead psychotic, who have lost contact with true reality.
