THE EXPECTED COMPOSITION

THE EXPECTED COMPOSITION

The following information on the expected composition of the atmosphere is from the book entitled "Introduction to Atmospheric Chemistry", by Peter V. Hobbs, Cambridge University Press, 2000. Please note that the symbols for the chemical elements of Titanium, Aluminum, Barium, Magnesium and Calcium are Ti, Al, Ba, Mg and Ca respectively, and that they are not to be found within this listing. Please also note that concentrations are provided at the parts per trillion level.
LAB TESTS ARE POSITIVE

LAB TESTS ARE POSITIVE

A report from an independent consultant sent to a woman who had sent along three separate samples to be analyzed are attached on this page. The analysis report sent to this woman details proof that the samples contain metals and other elements that are known to be used in aerosol programs. The breakdown of the levels of contamination are attached to this page.
INSURANCE EXCLUSIONS

INSURANCE EXCLUSIONS

This page contains a letter sent to the Carnicom Institute by a citizen in Indianapolis, IN, stating that he had discovered new insurance exclusions to his homeowner policy. The first one is a ‘Pollution Exclusion’ that waives coverage for pollution and its effects. The actual exclusions are included on this page. From the Pollution Exclusion: “Pollution, in all its various forms, has become a major problem in this country. However, we don’t yet know the full extent of the problem, or the losses and damage that may result from this hazard.” The second exclusion is the ‘Communicable Disease Exclusion’. From this exclusion: “This endorsement states no coverage is provided under the liability coverage section of the Homeowners policy for injury arising out of the transmission of a communicable disease by an insured.”
RAINWATER – SUBMITTAL

RAINWATER – SUBMITTAL

This work shows a visual/pictorial comparison of four different water solutions that a citizen sent in to the Carnicom Institute. The four solutions are 1) colloidal silver in water, 2) rainwater from Diamond Springs, CA from 1-27-2002, 3) tap water, and 4) distilled water. This person used a laser beam to illuminate the particles of metal in the solution, with the tap water and distilled water used for comparison purposes. The colloidal silver and the rainwater shine much brighter than the tap and distilled water, with brightness associated with the amount of metals in the water solutions.
JEFF RENSE INTERVIEW with CLIFFORD CARNICOM AEROSOLS and ELECTROMAGNETISM

JEFF RENSE INTERVIEW with CLIFFORD CARNICOM AEROSOLS and ELECTROMAGNETISM

Included here is the entire interview between Jeff Rense and Clifford Carnicom from November 2001. This interview covers what is known regarding aerosol operations, as well as discussion of many of Carnicom’s research papers and their meaning for humanity. Topics covered include how the skies were empty of any spraying activity in the weeks after the World Trade Tower attacks on September 11, 2001, the EPA’s refusal to analyze fiber samples sent to them by Carnicom, results of water sample testing and much more.
THE PLASMA FREQUENCY: RADAR APPLICATIONS

THE PLASMA FREQUENCY: RADAR APPLICATIONS

This work details an analysis made that indicates that one of the primary applications of the aerosol operations is likely to involve the advanced use of radar technology for military purposes. Discussion ensues of the definition of plasma, with plasma being an ionized gas consisting of ions and free electrons distributed over a region in space. The effect of aerosol operations can lead to no other logical conclusion except that the lower atmosphere itself has been altered to a plasma state. The importance of the concept of ‘plasma frequency’ is outlined in a quote from Richard Feynman: “This natural resonance of a plasma has come interesting effects. For example, if one tries to propagate a radio wave through the ionosphere, one finds that it can penetrate only if its frequency is higher than the plasma frequency. Otherwise the signal is reflected back. We must use high frequencies if we wish to communicate with a satellite in space. On the other hand, if we wish to communicate with a radio station beyond the horizon, we must use frequencies lower than the plasma frequency, so that the signal will be reflected back to earth.” A detailed discussion of the calculations of the plasma frequency for the ionosphere ensues in this work that supports the notion that a significant application of the aerosol operations may well involve the propagation of radio waves over extended distances. There are numerous military and electromagnetic propagation applications that become evident from this finding.
AEROSOL TRACKING RADAR RESEARCH

AEROSOL TRACKING RADAR RESEARCH

This page shows a radar image from August 30, 2001 of an area of the southwest US, with an anomalous extensive circular and stationary return just southeast of Las Vegas, Nevada. Citizens are urged to devote increased attention to such images that have been monitored and reported in conjunction with aerosol operations that are in progress all over the globe.
AIR QUALITY DATA REQUIRES PUBLIC SCRUTINY

AIR QUALITY DATA REQUIRES PUBLIC SCRUTINY

A case is made here for the need to have independent testing and verification performed of current atmospheric particulate counts in the United States. The basis for such a need includes; the repeated observations of the decline in visibility in the US (which is directly related to particulate concentrations), the unwillingness of the US Environmental Protection Agency (EPA) to adequately address concerns of countless citizens regarding atmospheric degradation by aircraft aerosol operations; the US National Weather Service’s reduction of visibility reporting standards from a maximum of 40 miles to a maximum of 10 miles; the apparent limitations of access to post-1998 public data base files that involves direct atmospheric monitoring by government bodies such as NOAA’s Climate Monitoring and Diagnostics Laboratory; and the newly released 1999 US mortality statistics showing an increase in chronic lower respiratory deaths. A theory of light scattering is discussed to be used as an initial estimator of atmospheric concentrations of particulate data, with example cases used to illustrate how such models can be used to estimate these
RAINWATER SAMPLES: MICROSCOPE VIEWS (II)

RAINWATER SAMPLES: MICROSCOPE VIEWS (II)

More photographs of rainwater concentrate as viewed under a microscope are presented here as a complement to investigations recently presented on the Carnicom.com website (see previous RAINWATER METALS, CRYSTAL CHEMISTRY, and RAINWATER SAMPLES: MICROSCOPE VIEWS papers). These photographs depict primarily a log of recurring structures which are found under various conditions, rather than an analysis of such structures. These structures in these microscope pictures appear to be fibers, metal oxides, and other unidentified materials. All citizens are urged to participate in the process of further collection of rainfall samples, subsequent distillation or concentration and the identification of material substances within. Any assistance provided by other researchers or sources is welcome.
RAINWATER METALS: MICROSCOPE VIEWS

RAINWATER METALS: MICROSCOPE VIEWS

Photographs of rainwater concentrate as viewed under a microscope are presented here as a complement to investigations recently presented on the Carnicom.com website. These photographs depict as evaporated crystalline form as well as a wet slide mount of the samples. The materials in these samples under microscope appear to be composed of several distinctive and complex forms, with the dominant material being a metal oxide. The presence of fibrous materials, measuring approximately 1-2 microns diameter, occurs frequently and is easily visible within the wet slide mount pictures.
RAINWATER METALS

RAINWATER METALS

Rainwater sample analysis is showing extraordinary levels of metallic particulates in these samples. A sample is presented here from rainwater collected on July 26, 2001 in Santa Fe, New Mexico. Distillation of the rainwater sample has been used so as to make the metallic particulates visible to the naked eye in test tubes. The pH of these rainwater samples has recently been measured at 7.6 or higher, demonstrating a level of alkalinity much higher than that expected in rainwater.