More As To The Function Of Fields

The exact magnitude and direction of magnetic and electric fields may vary, although the basic "ingredients" of these are constant.  (One electron has a basis of one electron volt, it has a mass of roughly 9.11*10^(-31) of a kilogram, etc... .)  As an electron moves and changes its spot, its relation in other things changes.  Yet, if the basic "ingredients" that work to define as to where the electron is & what it is doing (which may not be simultaneously determined, via the Heisenburg Principle) is to become different than those stipulations that are to allow it (the electron) to be what it is, then it is no longer an electron -- to where it is then to tend to be a residue of what it previously was.  In order for such residue to not occur, in which such an otherwise said residue is not contingent in working to define how an electron is to behave, the fields that work to define the differentiating boundaries of what an electron is, must have a contingent genus of a harmonic oscillation, that is here to be of a fractional spin.  When such a general genus of a harmonic oscillation, is to work to bear a relatively smooth homotopic translation, any directly corresponding hermitian singularities that are to innately exist, are here to work to define a lack of overt jointed spurs -- when in the Fourier-related transfer of the said electron from one spot to another.  This then means, that the surface areas that were described by the translation of the fields of the given electric and magnetic fields, must then NOT be broken-up or jointed like a metaphorical "crumbled shell," to where, instead, these said fields are interconnected, like you would metaphorically think of water to be like.  Think of light.  It is a "thing."  A "hole" in it really isn't a "hole," it is more like a "shadow," or a section that you can not see.  A "hole" in light, is a spot where there is no light.  Light is energy that is formed by the release of the residual energy that is emitted by an electron, when it is here to drop back-and-forth an energy level.  So, electrons obey certain laws.  More to come.  To Be Continued!  Sincerely, Samuel David Roach.