Biomedical Engineering Reference
In-Depth Information
the case in the late 1920s and early 1930s with QM and the early
concepts of quod erat demonstrandum (QED) when pioneers in
various disciplines emerged to find new predictions and validate
QFT in the various areas of physics to which it could successfully be
applied.
Within this textbook the statement '
according to SFT
'isfre-
quently used. This usually implies a hypothesis that is yet to be
validated by experimental evidence. However, this does indicate a
physicalprocessthatcanbeobservedtocorrespondtothepredicted
mechanisms of the theory without comprehensive quantitative
validation. Photonics within the atmosphere is one example. What
we see are layers of chemical reactions, each different to the others.
Anyone in an aircraft in the process of either attaining cruising
altitudeordescendinginpreparationforlandingwillhaveobserved
such layers of photonic interaction. It is the author's role to simply
present the work thus far, including both the evidence garnered to
date and the many hypotheses or predictions that can be associated
withSFTacrossthewidestpossiblegamutofphysicsandbiophysics.
That is what a theory of mathematical physics and biophysics is—a
meansofpredictingthephysicalandbiophysicalworld.Theprocess
of science is to improve on our theories. At this point in time it is
ourquantumtheoriesthatwerefirstmootedaroundthestartofthe
20thcenturythatarebeingquestionedandfoundwanting.Certainly
in the fullness of time, SFT will face the same curtain call. But we
probably have several decades to go yet before we come to that
bridge.
The first author is primarily a mathematical physicist and
biophysicist with an engineering and biological background, a
lifelong polymath who has discovered an exact solution to the ML
system ofequationsthat has previously remained concealed. This is
the heart of SFT, an important new analytic theory of how various
physical systems of particles can remain in dynamic equilibrium
without expending energy. SFT turns out to be very general, not
just applying to EM particles as in the hydrogen atom. SFT provides
a new description across the known limits of physical knowledge.
There is overwhelming evidence that SFT is a more detailed, more
fundamental model of physics than QFT. In the past we have spoken
ofaunificationofphysics,andthatispreciselywhatSFTrepresents.
