INTRODUCING METHODOLOGY DETECTING SENSORY SITES AS EMITTERS OF ELECTROMAGNETIC RADIATION IN WARM- AND COLD-BLOODED ANIMALS (INTRODUCING DISTAL LIZARD TAILS AND HUMAN HAIR FOLLICLES COMMONALITIES)
DOI:
https://doi.org/10.29121/granthaalayah.v10.i9.2022.4773Keywords:
Biophysics, Molecular, Biophysics As Bridging, Cross Species Similarities, Potassium Ferricyanide, Absorption Incoming Energy, Electromagnetic Energy, Cold-Warm BloodedAbstract [English]
The main purpose of this manuscript is to introduce a simple tabletop optical microscopy methodology allowing for the display and recording of similarities in electromagnetic energy emission in the animal kingdom, namely the Human Hair Follicles and Lizard’s tail tips energy emissions. This finding includes warm- and cold-blooded specimens. Details of the technique had been developed in 2015 and subsequently published in 2016 is presented. Since then, numerous papers were written, they range from In Vivo experiments documenting the effect of increasing blood alcohol levels in electromagnetic radiation in humans to the present manuscript detailing commonalities found in human hair follicles with spontaneous detached lizards’ tails tips. Essential the technique is the placement of tissue in a single slide preparation (SSP) then covered by drops of diluted Potassium Ferricyanide of formula K3[Fe (CN)6] (Figure 1). For simplicity, in this manuscript the acronyms K3Fe will replace the formula K3[Fe (CN)6]. The intrinsic property of full absorption of incoming electromagnetic radiation by K3Fe triggers crystallization patterns confirming energy emissions of the tissues tested. Images, video-recordings, and selected references to published papers are listed.
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