Biomedical Engineering Reference
In-Depth Information
solidification can occur in galactic structures, corresponding to
findings of fairly constant galactic orbital speed variation with a
radial distance known since the 1930s. Universal expansion follows
the work of Hubble in the 1920s in identifying a red shift applying
to matter within the universe. Biological evolution may therefore
correlate with cosmological evolution. It is known that the first
simple forms of life around 4 Ba ago in the case of our own
Milky Way galaxy had single-celled structures. It was around this
point in cosmological time that the solar system is thought to
have first formed. The small size of early proto-life forms and
their bulk modulus relative to mammals corresponds to the fact
that the energy density of photons and phonons within the early
Milky Way galaxy would have been relatively higher than during
later epochs, when mammals of varying sizes evolved. Life forms
would be expected to grow larger and be more solidified via
phonon resonance within the evolving galaxy as the photon energy
density within the solar system. Correspondences exist between
the inflationary process of cosmological evolution into gravitational
structures and their life forms.
Theories of galactic evolution form a complex array including
top-down hypotheses where large gas clouds condensed and
bottom-up hypotheses where coalescence occurred of smaller
progenitor structures. Many include dark-matter predictions not
supported by SFT but rather a modified form of gravitational
structure based on a strong nuclear form of Maxwellian equations
thatincludessolidifyingphononswithinthestructure.Observations
of the early universe suggest a bottom-up process, where an early
galaxy was composed mainly of gas with fewer stars. The gas at
a critical point in time underwent rapid contraction, causing the
galaxy to rotate faster until it became a very thin, rapidly rotating
disk. This is a changing galactic structure, whereby it increases in
size and mass until condensation occurs. What causes or ends the
contraction is not known, nor are current theories successful at
predicting the observed rotation speeds, sizes and masses of disk
galaxies.
Inthesamewaythestructureofagalaxyevolves,sotoodoesthe
structure of the life forms it sustains (Figs. 3.9 and 3.10). The three-
dimensional forces holding a galaxy together create the pressure
