Biomedical Engineering Reference
In-Depth Information
Figure 2.4
Electroweak and nuclear shell structures. Analogous to the EM
electron shifting shell as energy density is raised via
ε
0
μ
0
, so too the weak
electron moves its inner shell if
ε
WN
μ
WN
is raised; at the same time the
proton shifts itsnuclear shell.
nuclear physics a modified form of the atomic shell model is used to
describe a set ofnuclear shells in terms of energy levels.
SFT reveals another shell structure for the weak nuclear
electrons and their complementary proton shell structures within
the nucleus. As shown in Fig. 2.4 an internal SFT balance can
be achieved between a weak electron and a proton within the
central core or inner spherical region of the nucleus. In this
region elevated energy densities are present via the electroweak
constitutive parameters
ε
WN
μ
WN
. What this implies is that the
strong nuclear effect occurs within an annular region where the
quarks and gluonsmove.
In the early days of quantum mechanics (QM) Pauli suggested
thatthechemicalbondwasduetoaresonancephenomenon.Wecan
seethatdespitehisinsight,andhisbrillianceinusingQMtoobtaina
wealthofchemicalinformation,theQMmethoditselfwasincapable
ofdeterminingtheexactbondrelationshipsduetoHUPandthelack
of a complete EM field form. The history of both QM and atomic
chemistryisorganic,withnumericalandotherapproximationsused
to aid the progress in atomic chemistry that was then blossoming.
That there were errors in QM was not considered, although Condon
pointed out the limitations, including singularities and numerical
intractability, that were becoming apparent. EPR pointed to the
incomplete nature of quantumtheory.
