This is a model to estimate climate change from applying changes in greenhouse gas concentrations relative to the current rates of increase. It also provides for introducing various aerosols and into the atmosphere. It also includes the simulation of random events upon climate change.
A set of video tutorials explaining how to use the "GEOENGINEERING & CLIMATE CHANGE MODEL".
It has long been proposed that the aerosol operations have the effect of aggravating the heating condition of the planet, and that they show no prospect for cooling the earth. This is in direct contradiction to many of the popular notions that these operations are somehow intended for our benefit. The aerosols are being dispersed into the lower atmosphere, and it can be shown from this fact that they will indeed heat up the lower portion of the atmosphere. Global warming itself is defined as the heating of the lower atmosphere and earth. The notion that the aerosols are in some way cooling the planet is contradictory to direct observation and the examinations of physics. The current model examines the effects of deliberately introducing barium particulates into the lower atmosphere, and the subsequent contribution to the global warming problem. The results indicate that these particulates, even at rather modest concentration levels, can contribute in a real and significant way to the heating of the lower atmosphere. The graph presented in this work shows the expected interactions from 3 variables that relate to the global warming issue; these are: aerosol concentration, time and rise in temperature. As the model presented herein is intended to be reasonably conservative, the impact of the aerosol operations could be much greater than these results show.
The details of the Global Warming Model are presented on this page.
A series of highly unusual reports of red rain falling in parts of India starting in 2001 and lasting roughly two months prompted Clifford Carnicom to try to contact university members at the Mahatma Ghandi University in that country. Both attempts at contacting the University failed as undeliverable. This paper contains a link to an article describing the red particles contained in the red rain itself, as well as work done by Godfrey Louis and A. Santhosh Kumar, who wrote papers about this topic of red rain. Various attempts at explaining how these particles got into the rain are discussed, with some scientists believing a previous meteor shower could have deposited the particles in the atmosphere, which is called panspermia. As far as the particles themselves, they have the following intriguing, yet alarming, characteristics ascribed to them: These particles have much similarity with biological (red blood) cells though they are devoid of DNA. The particles can grow if placed in extreme heat and reproduce, even though the particles seem to lack a nucleus and DNA for reproduction. The particles look like one-celled organisms and are about 4 to 10 thousandths of a millimeter wide, somewhat larger than typical bacteria. Even after storage in the original rainwater at room temperature without any preservative for about four years, no decay or discoloration of the particles could be found.
Recent work indicates the very real possibility of sources for interference in the metabolism of the potassium ion within the human body (potassium levels that are too low in the body may present medical difficulties such as heart failure, fatigue, muscular weakness and depression). This interference is based upon the detection of continuous and apparently artificial ELF (Extremely Low Frequency) propagation at 4Hz multiples. The fifth harmonic of this radiation, detected at 20Hz, corresponds to the cyclotronic frequency of the potassium ion in the mid latitude ranges of the globe. Readers are referred to a previous Carnicom article on this topic titled ’POTASSIUM INTERFERENCE IS EXPECTED’ (dated May 15, 2005), and to the work of Dr. Robert Becker for additional information on this subject. Upon further inquiry by Clifford Carnicom on the attempt to increase potassium levels in the diet has revealed some unexpected findings. It might be considered reasonable for an individual to seek out a potassium supplement, in addition to the investigation of changes in the diet. Such a search has been conducted by Carnicom...upon examining all potassium supplements at the local health food store, regardless of brand, Clifford soon noticed that no products were available that provided a level of potassium greater than 3% of the recommended daily allowance for potassium.
A graph showing the ion count, based on a direct measurement by Clifford Carnicom over a 47 day period (April 1, 2005 to June 19, 2005) in Santa Fe, New Mexico is the object of this page. This graph shows an increasing ion count over the timeframe described. Readers may wish to visit the previous Carnicom paper titled ’IONS & HUMIDITY’ (dated May 26, 2005) for more information on this topic and the graph’s interpretations.
It is thought that the graph shown on this page may well be at the core of the aerosol operations. This graph shows direct ion measurements in combination with historical humidity data during the past month. The graph shows what appear to be highly favored conditions for the conduct of the aerosol operations or the transport of aerosol banks within a region. Aerosol operations are being staged at specific times of low humidity and low negative ion count. These two tenets, that of humidity association and ionic manipulation, have been at the foundation of the aerosol research since the early days of investigation. It seems quite fair to state at this stage that the balances of nature are being upset with artificial methods that threaten the viability of life on this planet. A very general interpretation of the current data can be made as follows: Low humidity is a period of relatively low moisture in the atmosphere. A low negative ion count is also generally indicative of lower moisture levels in the atmosphere. The research indicates that both of these variables, taken together, serve to indicate likely periods of aircraft aerosol or aerosol bank operations. This finding may appear to be in contradiction to the humidity conditions that have been associated with the operations, but in reality they are not contradictory in any fashion.