[Download] "Extrinsic Electromagnetic Fields, Low Frequency (Phonon) Vibrations, And Control of Cell Function: A Non-Linear Resonance System" by Journal of Biomedical Science and Engineering (JBiSE) * Book PDF Kindle ePub Free
eBook details
- Title: Extrinsic Electromagnetic Fields, Low Frequency (Phonon) Vibrations, And Control of Cell Function: A Non-Linear Resonance System
- Author : Journal of Biomedical Science and Engineering (JBiSE)
- Release Date : January 01, 2008
- Genre: Engineering,Books,Professional & Technical,
- Pages : * pages
- Size : 93 KB
Description
1. INTRODUCTION Following the "big bang" and earlier formation of paramagnetic hydrogen, star collapse largely completed the atomic chart with three forms of electromagnetic responsive elements, i.e. paramagnetic, diamagnetic, and ferromagnetic; later, atmospheric damping of electromagnetic discharges from lightning and solar sources evolved The Schumann Resonance(SR). As life evolved on earth the SR was the primary forcer that caused bond length oscillations in paramagnetic/diamagnetic constructs (PDCs) that proteins strategically assembled to initiate and route the resultant quantized signal series. In forcing this signal series that was native to the protein matrix, the SR controlled conformational protein adaptation (CPA) in DNA, protein enzymes, and membrane proteins. Hawking noted in A Brief History of Time, "the universal force of electromagnetism controls all biological response", applicable here just as in Pauling's more classical derivation (Nobel lecture, 1954). Diurnal fluctuations shared by living systems and The SR constitute epochal evidence that native phonon vibrations are shared among proteins to control cell function throughout the hierarchy of living systems. For those who would assign diurnal function to light and dark a review [48] of this atmospheric influence is suggested. This phonon system, symbiotically shared as proteins assembled, and later called a meridian, was functioning nearly 2 billion years before the first nerve network evolved in Cnidarians. (http://trc.ucdavis.edu/biosci10v/bis10v/week10/07nervev olution.) "Lacking a connection to the central nervous system" may not be a valid criticism of the meridian concept.