Abstract
Fluctuating measurements of the weight of aluminum foil objects have been observed during the course of experiments on a natural force termed KELEA (kinetic energy limiting electrostatic attraction). This observation runs counter to the assumption that the weight of an object is a fixed measure of the earth’s gravity acting on the particular object. Gravity is generally understood as being a passive process in which there is a direct relationship between the mass of an object and its capacity to curve space-time. The induced space-time curvature then determines the movements of masses towards one another. It is possible, however, that the mass of an object is also directly influenced by the action of an external energy force. Specifically, this paper proposes that absorbed KELEA may in addition to contributing to the kinetic activity of fluid molecules may also add to the measured weight of certain objects. While conducting studies on the capacity of KELEA to add kinetic activity to fluids, considerable variability over time occurred in the repeated measurements of the weight of an aluminum foil. The increase in weight is considered unlikely to be due to aluminum or other atoms being added to the foil, or due to an increase in the net energy of the foil. Rather, it is suggested that an environmental factor, presumably KELEA, can either be providing a continuing impact force on the foil or intrinsically altering the interaction of the mass of the foil with space-time. A second aluminum foil showed a similar pattern of weight changes consistent with an environmental effect. The relatively simple monitoring of fluctuating weight changes provides a robust system for analyzing KELEA. Further studies on the reported phenomenon may help in reshaping some of the basic concepts of mass and gravity.
Highlights
The weight of an object on earth is generally considered a direct measure of its mass compared to the far greater mass of the earth
A striking observation during the course of experiments on various methods for activating water is that the weight of certain objects can undergo fluctuations, including increases beyond the originally measured weight
The results on aluminum foil are consistent with the absorption of an environmental force termed KELEA
Summary
The weight of an object on earth is generally considered a direct measure of its mass compared to the far greater mass of the earth. Albert Einstein introduced the concept that a curvature dimension of space-time is changed in the vicinity of mass objects [1]. The space-time curvature is such that unrestrained, initially stationary objects will move towards one another in a path that directly extends between the two objects. Space-time curvature is used to explain the paths traversed by celestial bodies, including the earth’s rotation around the sun. This rotation is essentially sustained by a balancing effect of the outward angular momentum of the orbiting earth versus the inward curvature of space-time, which comprises the sun’s gravity. The earth sustains a daily rotation, while the sun and planets are moving on a rotational path within its galaxy. Different galaxies and their celestial bodies are continually moving within an ever-expanding universe
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