TITLE:
Interacting Light Paths Attract KELEA (Kinetic Energy Limiting Electrostatic Attraction) and Can Lead to the Activation of Water
AUTHORS:
W. John Martin
KEYWORDS:
ACE, Alternative Cellular Energy, KELEA, Water, Hydrogen Bonding, Light
JOURNAL NAME:
Open Journal of Biophysics,
Vol.5 No.4,
October
28,
2015
ABSTRACT: Water can acquire a kinetic activity, which is attributed to the absorption of an environmental force termed KELEA (kinetic energy limiting electrostatic attraction). This activity can lead to increased volatility of the water that can be measured as the progressive weight loss in closed but not completely sealed containers. It has been proposed that KELEA is a natural force required to prevent the fusion and possible annihilation of electrostatically attracted opposite electrical charges. As such, it may be especially available where there is a convergence of force fields of opposing electrical charges. At least conceptually, this may arise with facing light sources with centrally directed light beams. An oscillating attraction and release of KELEA may be facilitated by repetitively disrupting the light paths using an overhead flashing light source. This paper reports on preliminary studies that are based on this premise. Although not proving the premise, the reported experiments do indicate a simple method for activating water. Moreover, the described procedure should allow for further exploration of the underlying mechanism of water activation. The procedure involves the use of four, diagonally placed regular LED traffic lights, with an overhead strobe light. The volatility of water samples in closed but not completely sealed glass vials placed within the lighted area significantly increases in a manner that persists well beyond the periods of light exposure. The paper further shows that activated water can indirectly lead to the activation of nearby water. The reported observations are of both practical and theoretical importance.