Reading about the newly re-discovered Rainbow Toad in Borneo reminded me of my
January 27, 2011 post referencing Mae-Wan Ho's The Rainbow and The Worm: The Physics of Organisms, where she states that "Life is all the colors of a rainbow in a worm."
As I mentioned in that blog post, researchers in Singapore recently concluded that quantum entanglement plays a crucial role in explaining the stability and data storage of the DNA double helix.
Professor [Luc] Montagnier is convinced that crucial
differences can be detected at the electromagnetic level in addition to methods using conventional sequencing and "chemical" testing which are
central to the overall project.
"...it seems that understanding life at the sub-molecular and
electromagnetic level is now possible."
What if the spectrum of colors in the rainbow reflect the
range of energies which control life processes? Imagine, for example, if all the energies that regulate the body functions could be thought of similarly to different wavelengths of light. If so, we would be able to modulate the body at the level of physics and cure cancer.
As it turns out, electromagnetic research is ongoing.
Results so far have shown that researchers are getting data on electric pulses
from myeloma DNA versus normal DNA, and there is an article in the current
issue of Science Journal on the electric pulses from E. Coli bacteria. While it
is still too early in the process to have any clear evidence, it will be
interesting to see where the study leads.