Abstract
The basic premise of this article is that human generated electromagnetic radiation is contributing to global warming. It may do so by diverting an energy force termed KELEA (kinetic energy limiting electrostatic attraction) from its presumed association with cosmic rays. Cosmic ray delivered KELEA is viewed as normally participating in the formation of cloud condensation nuclei (CCN). It may do so by transforming electrostatically inert particles into electrostatic aerosols capable of acting as CCN. The resulting clouds act as a reflective barrier to some of the infrared radiation from the sun and, thereby, reduce the earth’s heat. This article proposes that increasing levels of electromagnetic radiation in the atmosphere is reducing the capacity of cosmic rays to deliver adequate KELEA to maintain climate stability through optimal cloud formation. Specifically, the fluctuating electrical fields accompanying electromagnetic radiation may do so by competitively withdrawing some of the KELEA from the incoming cosmic rays. Previously described studies by Dr. Wilhelm Reich attributed to an energy force termed orgone, are consistent with weather activity being inducible using a device that likely delivers KELEA to the atmosphere. In addition to the foregoing consideration, there are many agricultural and industrial applications of KELEA activated fluids that can reduce carbon emissions. It is important that the scope of climate science be broadened to include a detailed understanding of KELEA and of its many potential practical applications in addressing global warming.
Highlights
The reality of climate change is being acknowledged by world leaders
Climatologists are unlikely to be aware of recent research pointing to a natural force termed KELEA
This article outlines a possible scenario in which KELEA brought to the earth by cosmic rays, participates in the formation of heat-reflective cloud cover by activating cloud condensation nuclei (CCN)
Summary
The reality of climate change is being acknowledged by world leaders. While of little comfort to those already subjected to disastrous weather conditions, there is optimism that efforts to reduce industrial carbon emissions will lead to more stability in the world’s weather system. KELEA is presumably attracted to separated electrical charges in a manner that provides a barrier to actual fusion of opposite charges as they approach one another due to increasing electrostatic attraction. A further proposal is that KELEA may operate to weaken the strength of intermolecular hydrogen bonding between molecules [2]. This effect has been most clearly documented with water, and can be seen with other liquids, including gasoline [2]. It may influence intermolecular electrostatic attraction in gaseous fluids, such as propane and natural gas
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