SOME CURIOUS FINDINGS HAIR FOLLICLES BIOELECTROMAG- NETIC RADIATION EXPRESSED AS LIGHT DISPLACING MATTER IN ITS PATH AND THE CONTRALATERAL EMISSION OF MAGNETIC FIELDS FOUND IN THE HAIR SHAFT

BACKGROUND: A mini-review of prior experiments by this author and others are herein presented where bioelectromagnetic ields expressed as light are shown displacing matter of ferric cyanide chemical compounds. A seminal paper published in 1980, is also included where human hair follicles had been documented as emitting magnetic ields when applying pressure on the human scalp. METHODS: In physics the term light refers to electromagnetic radiation, which includes visible light, which has also been described as exerting physical pressure onmatter in its path; this could be explained by the “particle nature of light”. To date light rays’ emission experiments has been done mainly on nonlivingmatter. This manuscript will show in vitro results where biological tissue (hair follicles) is shown emitting electromagnetic radiation in a light form and displacing particles in its path. Additionally, the hair shaft one-sided biomagnetism is shown. RESULTS: Findings are presentedwhere light rays or lashes emitted by hair follicles are documented to exert pressure inmatter in its path causing displacement; and in one case a lash of light seen as a primary factor in totally reversing turmoil caused by a piezoelectric or pressure inducedmaneuver. As an incidental inding: Thehair shaft is also found to express one-sidedmagnetic ields similar to inanimate magnets inhibiting human blood issue ibrin formation (clot formation). CONCLUSIONS: Presented is a mini-review of biological tissue previously found to emit magnetic ields, now also expressed as light. The light is displayed shown as a “ lash” or a “stream”, in both instances displacing matter in its path. The light lash also appears to be a primary factor in bringing equilibrium into the piezoelectric disturbed bioelectromagnetic ield. Question arise: What is/are thebiological/molecular consequences of living tissueunder stress emitting light energy? Why is the hair shaft bioelectromamagnetic ield shown in a contralateral fashion, this when the hair follicle is not? Further research is How to cite this article (APA): Embi, A. A. (2021). Some curious indings hair follicles bioelectromagnetic radiation expressed as light displacing matter in its path and the contralateral emission of magnetic ields found in the hair shaft. International Journal of Research GRANTHAALAYAH, 9(7), 334-342. doi: 10.29121/granthaalayah.v9.i7.2021.4114 334


DEFINITIONS OF TERMS
• Particle Nature of Light: Light exerts physical pressure on objects in its path, a phenomenon which can be deduced by Maxwell's equations, but can be more easily explained by the particle nature of light: photons strike and transfer their momentum. (Wikipedia). • Electromagnetic Radiation: "a kind of radiation including visible light, radio waves, gamma rays, and X-rays, in which electric and magnetic ields vary simultaneously". (From Oxford Dictionary) • Biolectromagnetism is interdisciplinary because involves "the association of life and sciences with the physical and engineering sciences" • Mechano-Electrical Transduction: The conversion of force into electricity.

UNPUBLISHED VIDEO SHOWING RODENT FACIAL WHISKER EMITTING LIGHT AND DISPLACING MATTER
The main purpose of this manuscript is threefold, the irst is to introduce an unpublished image from a previously published experiment (1) where applied inger pressure was exerted on a rodent whisker immersed in liquid Potassium Ferrocyanide and placed between two glass slides. In this case, shown is the emission of an unexpected intense light lash physically displacing matter (whiskers Filaments) (Figures 1 and 2 plus video). The second purpose is to group similar images where light rays are also shown displacing matter (Exhibits 1,2,3,4,5). The third, the prevalence of a one-sided hair shaft magnetic ield (contralateral side) (6) Figure 3 ).

METHODOLOGY
Some of the images and indings herein presented have been previously published; and others are from my iles. References are attached to Figures and Exhbits.

FINDINGS
When taken in context, the images (Figures 1,2 above and Exhibits + Videos below) support a curious observation that not only involves rodent and humans bioelectromagetism expressed as light; but also displacing matter.

EXHIBIT 1
Image

DISCUSSION/SUMMARY
Qualitative In Vitro examples are presented showing human and rodent hair follicles emitting light. The light is shown as a lash (Figure 2), which was induced by applying inger pressure to the preparation. This could be classi ied as a piezoelectric effect, which is the ability of certain materials to generate an electric charge in response to applied mechanical stress. Other images and videos are labeled Exhibits, since they are previously published images by this author. References to the appropriate paper are shown.
There is a common denominator to the phenomena of light emission from living tissue, which is theorized to be triggered by the presence of external pressure during the experiments, whether from applied inger pressure or from the increased environmental pressure when tissue is "sandwiched" (SDW) between two equal glass slides.
The above indings seem to point that light originates during turmoil, and its discharge brings equilibrium as seen in Figure 2 (video). An analogy is a lightening lash during a storm, it equilibrates the local environment…until another chaotic event triggers another discharge…. and another…. until calm is restored….

Hair Shaft Property of One-Sided Magnetic Fields
As displayed in Fig.3 above, the hair shaft is shown to have one-sided electromagnetism. Demonstrated by Potassium Ferricyanide crystals formed by incoming electromagnetic radiation.

Relevant Historical Note
In a seminal paper describing the origin of magnetic ields in the human body Cohen et al. (1980) by using sophisticated equipment stated: "Most of the ield over the head is produced by electrical sources associated with the hair follicles of the scalp; this ield is produced only as a response to touching or pressing the scalp in regions where the hair is dense". Recently, an optical microscopy method was developed in 2015 and published a year later Benjamin et al. (2016) that also detects bioelectromagetic ields from hair follicles. That microscopy method was the one used to detect bioelectromagnetic emissions in the form of light when applying pressure to follicles; and is herein presented as shown in Figures 1 and 2  The Chest Thump and Heart Arrhythmias New England Journal of Medicine-1970 Editorial-Conversion of Mechanical Input into Electrical Impulse Cardiologic jargon terminology now includes reference to various forms of version ranging from electroversion to cardioversion and now thump-version. This latest measure dispenses with gadgets and uses immediately available mechanical energy to terminate life-threatening arrhythmia. Effectiveness of the maneuver is due to conversion of the mechanical input into an appropriate electrical pulse.

Mechanoelectrical transduction plays an integral part in biologic homeostasis.
Muscle-stretch spindles, the vestibular organ and baroreceptors in the great vessels depend on this mechanism to form complex feedback loops for sustaining regulation.