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| Subject: C4: Command, Control, Communications, and Computers of the New Manhattan Chemtrail Project Fri 16 Oct 2015, 20:08 | |
| C4: Command, Control, Communications, and Computers of the New Manhattan Chemtrail Project By Peter A. Kirby
“Let me guess… You must be, Xerxes.” – King Leonidas from the movie “300”The New Manhattan Project (NMP) requires an incredibly huge command and control apparatus. Over 1000 airplanes need to be commanded. The ionospheric heaters need to be operated. Atmospheric conditions need to be monitored and analyzed. Computers are needed to assist throughout. Today’s military refers to such an apparatus as C4: command, control, communications and computers. The development of these types of technologies used in weather modification and the atmospheric sciences is well documented. It’s way too big to hide. This paper examines the historical development of these technologies, the currently known state of the art, and possible undisclosed operations. Specifically, this article examines the development and current status of C4 technology used as part of today’s New Manhattan Project. If you do not know what the New Manhattan Project is, please see the author’s previous article “Chemtrails Exposed: A History of the New Manhattan Project.” Mapping the atmosphereBefore our atmosphere could be commanded and controlled, it was necessary to understand its composition and movements. Pertaining to this quest for understanding, this section recounts some of the most notable efforts. The weather that we experience is a product of planet Earth, its atmosphere, and the Sun. Our atmosphere consists of many layers. In ascending order, our atmosphere consists of: the troposphere (where we breathe the air and our weather occurs), the stratosphere, the mesosphere, the thermosphere, the ionosphere, and the magnetosphere. Phenomena in all of these regions, stretching to 32,000 miles above Earth’s crust, have a direct effect upon the weather we see every day. Not only that, but the water, ice, volcanoes, calderas, and other features of the Earth’s surface and sub-surface have direct relevance here. Because of this, in order to modify the weather, all of these regions must be understood and manipulated. As this piece unfolds, we will see that this understanding has been achieved. Terrestrial weather data networks began in the 1840s with the development of the telegraph. The first scientific explorations of our atmosphere were conducted using balloons, dropsondes and sounding rockets. Weather balloons would be floated up to 100,000 ft. into the stratosphere where attached devices would record atmospheric conditions and then would fall back to Earth to be collected. Later balloons used radio transmissions (radiosondes) to send atmospheric data back to meteorologists on the ground. Dropsondes are devices dropped from aircraft at altitude. A dropsonde will have a parachute that opens up so that the device can more slowly return to Earth as it gathers atmospheric data. Sounding rockets became prevalent starting in the mid-1940s. Rockets can go much higher than balloons or aircraft (200,000 ft.) and therefore gather higher-elevation atmospheric data; thus giving us a more complete picture of our atmosphere. This picture of our atmosphere would soon grow exponentially. Later sounding rocket experiments were designed to coordinate with ground-based electromagnetic energy generators called ionospheric heaters in order to map the auroral electrojet. The auroral electrojet is comprised of the Earth’s natural magnetic energy. The Earth is a giant magnet. These strong magnetic fields enter and exit the Earth at the poles and surround the Earth in a toroidal fashion. Many of these later sounding rocket experiments were conducted near the Arctic Circle because at that high latitude, the auroral electrojet is at lower elevations and therefore more easily observed. These sounding rockets carried payloads consisting of chemicals used to enable observations of the auroral electrojet. When the rocket got to around its apex, the nosecone would explode and the chemical payload would be released. Scientists on the ground and in aircraft used photography and ground-based ionospheric heaters to make observations and thus map the auroral electrojet. If you do not know what an ionospheric heater is, please see the author’s previous article “Smoking Gun: The HAARP and Chemtrails Connection.”As one of the leaders in the field, T. Neil Davis wrote, - Quote :
- Since 1955, various materials have been injected into the high atmosphere or the magnetosphere above for the purpose of creating observable markers or perturbations in the ambient medium and ongoing processes within it. Among the materials injected are sodium, trimethyl aluminate, aluminum oxide, nitric oxide, water, sulphur hexafluoride, strontium, cesium, lithium, barium and beams of energetic electrons. Injected in the proper fashion, each of these materials either emits in the visible band or interacts in some other way with the medium to produce visible emissions or visible modifications to natural emissions. Consequently, optical techniques have been extensively used to observe the effects of ionospheric releases. Other methods, including radio frequency, magnetic and in situ particle counting have been used to observe the injected materials or their effects.
Through the use of chemical releases, it has been possible to investigate a number of quantities including high-altitude winds and electric fields, the detailed configurations of the geomagnetic field within the ionosphere and the magnetosphere, as well as the propagation of energetic particle beams and their interaction with natural and ionised constituents of the high atmosphere. Neil Davis’ quite entertaining and informative book Rockets Over Alaska: The Genesis of Poker Flat details how in the late 1960s and early 1970s the Defense Advanced Research Projects Agency (DARPA), the Defense Atomic Support Agency, and the Atomic Energy Commission jointly conducted a rocket launching program out of Poker Flat, Alaska; in the interior, near Fairbanks. It was supported by the General Electric Space Sciences Laboratory. The then Stanford Research Institute’s Radio Physics Laboratory was heavily involved. This laboratory later became the source of a lot of HAARP research. Raytheon and many, many others were there. It was called SECEDE I & II. They had an ionospheric heater on site providing the electromagnetic energy. As of 2006 (the year of his book’s publication), Mr. Davis says that since 1969 there have been at least 100 chemical payload release rockets launched from Poker Flat. Poker Flat appears to be in use today. Similar operations by many different experimenters have been carried out all over the world. Worldwide, all time we’re talking about dumping at least metric tons of all sorts of highly toxic materials into the atmosphere. There is also, believe it or not, quite a documented history of satellites dispersing chemicals for the purpose of mapping the upper atmosphere. After balloons and sounding rockets, satellites have traditionally been used to quantify our atmosphere. Although the vast majority of satellites have been and are used for media telecommunications, there is a grand history of satellites being employed in weather modification and the atmospheric sciences. Over the years, the technology has gotten quite good. Historically, the space has been dominated by the National Aeronautics and Space Administration (NASA). A textbook called Satellite Technology: Principles and Applications recounts some satellite technology firsts. It reads, - Quote :
- The year 1959 marked a significant beginning in the field of satellite weather forecasting, when for the first time a meteorological instrument was carried on board a satellite, Vanguard-2, which was launched on 17 February 1959. The satellite was developed by National Aeronautics and Space Administration (NASA) of USA. Unfortunately the images taken by the instrument could not be used as the satellite was destroyed while on mission. The first meteorological instrument that was successfully used on board a satellite was the Suomi radiometer, which was flown on NASA’s Explorer-7 satellite, launched on 13 October 1959. All these satellites were not meteorological satellites; they just carried one meteorological instrument.
The first satellite completely dedicated to weather forecasting was also developed by NASA [in conjunction with the Army, Navy, RCA, and the Weather Bureau]. The satellite was named TIROS-1 (television and infrared observation satellite) and was launched on 1 April 1960. It carried two vidcon cameras, one having low resolution and the other with a higher resolution. Both these cameras were adaptations of standard television cameras. Though the satellite was operational for only 78 days, it demonstrated the utility of using satellites for weather forecasting applications. The first picture was transmitted by the TIROS-1 satellite on 1 April 1960. Read more here:- http://www.activistpost.com/2015/10/c4-command-control-communications-and-computers-of-the-new-manhattan-chemtrail-project.html?utm_source=Activist+Post+Subscribers&utm_medium=email&utm_campaign=254a5af6c3-RSS_EMAIL_CAMPAIGN&utm_term=0_b0c7fb76bd-254a5af6c3-387773073 | |
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