Abstract
When a finger tip of the subject or the electrical field from the positive electrode of a “1.5 volt” AA dry cell battery is placed at a certain distance above the skin of the organ representation point associated with a disease state of that organ, the Bi-Digital O-Ring Test produces a weakening of muscles and opening of the ring, which is comparable to the effect of touching the abnormal organ representation point of the skin with a finger or with a rod made of an electrical conductor or insulator. This effect appears only when the tip of the finger has a positive potential (usually less than 350 mV and fluctuating) relative to the abnormal part of the body. When the finger is grounded, this effect no longer exists. When the voltage is increased while maintaining the approximate size of the battery and inter-electrode distance, the maximum distance above the skin from the positive electrode of such a battery that can induce a significant muscle weakening response to the Bi-Digital O-Ring Test is found to be approximately proportional to the magnitude of the voltage. With the same battery, an electrical field can be concentrated by connecting a plastic tube on the positive electrode. When the diameter of the tube is reduced to 1/10, the electrical field is extended over 100 times the distance. Using a simple “concentrated electrical field projector,” the electrical field from the positive electrode of a “1.5 V” AA battery can influence an abnormal part of the body and muscle strength even at 13-30 meters. When the battery in the same electrical field concentrating device is replaced by a drug of known effect and amount (i.e. aspirin, β-blockers, calcium channel blockers, etc.), the “drug field” alone also influences the body at a maximum distance of about 13.5 meters. When the same experiment is repeated with an electrical field from the negative electrode of the same battery, regardless of the magnitude of the voltage, not only does the negative electrode not induce weakening of the Bi-Digital O-Ring, but even touching the skin of the abnormal organ representation point does not induce such weakening, and to various degrees, actually increases the pre-existing, abnormally decreased muscle strength. As a clinical implication of this phenomenon, one can use a positive electrical field for a new non-invasive method of detecting the abnormal organ representation point or abnormal part of the body from a distance. Such a concept may also provide some basic scientific explanation for certain folk medicinal practices using the “laying on of hands”, as well as the phenomena of attraction or repulsion of a charged insulator particle at a diseased part of the body. Since the effects of the electrical field from the + or - electrode on muscle strength can be detected using a voltage of even less than 100 millivolts, the influence on the body of the electrical field from static electricity, or of an environmental electrical field (including the electrical properties of clothing, shoes, floors, electrical wires, etc.) can no longer be ignored.
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