The bombs in the WTC.
www.saunalahti.fi/wtc2001/military.htm
www.saunalahti.fi/wtc2001/soldier2.htm
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911 eyewitness - Intense heat and bright flashes indicatenuclear explosions
http://video.google.com/videoplay?docid … 0315608217
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The Development of Bomb Technology Related to the 9/11 Operation
These outlines of developments in military bomb technology have been written to give the layman some idea, why bomb technology has developed into what it is.
A hollow charge made possible a small charge to make a hole in armour plate was invented in Switzerland in 1937. A cutting charge, used in the WTC in tens of thousands of pieces, was an evolunary model of the principles of a hollow charge from 1950's.
A Claymore threw steel balls towards the enemy, but was otherwise harmless even from 5 meters distance, was developed in the USA approximately in 1960.
A flank mine is able to direct a narrow pressure wave through AFV flanks from a distance of 20 meters and was more developed in Finland around 1970. Due to efficiency causes, growing part of military explosives deploy improvements utilizing directed explosion energy.
By controlling several layers of the explosion fronts the size of a nuclear bomb has been minimized during the 1960's (fission – implosion). After that, the control of explosion force in nuclear explosions was developed. Too strong an explosion is sometimes unusable, for example when the enemy have broken too close to friendly cities.
While looking for a bomb with a small size and a strong effect, a pure hydrogen bomb was an obvious solution. When no atomic device is needed for igniting, the size of the hydrogen bomb gets even smaller and the yield (effect) can be set within a wide range, for example between from 1 to 100. This succeeded in the 1980's, as well as the neutron bomb, which kills only living things and leaves most material untouched.
The former Soviet Union is said to have had more than 500 command centers durable for a small nuke. That led into the developing of different types of bunker busters. A working solution is a nuclear missile that directs 96% of its yield into a thin, all penetrating heat+blast wave forward, tunneling hundreds of meters downwards into solid rock. This type of a hydrogen bomb was developed somewhere in the early 1990's. Nowadays, both the yield and the direction of the destructive force of a small tactical hydrogen bomb can be somewhat controlled. The amount of fusion-able materials control the yield (effect) and the shape of the charge as well as the initiation arrangements impress the direction of the explosion wave.
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Observations Suggesting the Use of Small Hydrogen Bombs
http://www.saunalahti.fi/wtc2001/soldier4.htm
1) The concrete pulverized into fine dust, 70…300 micron particles (just this could take more energy than the total gravitational energy available). See Gehue plates 6 and 7
2) Very energetic – hot – dust after the explosions. (Demolition charges would produce white clouds of dust, which would not move much, and a gravity-driven collapse would produce much less and more coarse dust.)
3) Brown shades of color seen in the air – these are produced by nuclear reactions of a thermonuclear device. The reactions use (gamma radiation caused by free neutrons, N2, O2, H2O > nitrid acid, NO2, NO3). These clouds soon get their usual white color after some minutes as the heat and fast movement of the clouds cease becoming ordinary clouds with some water.
Note: many of the pictures taken regarding the WTC Towers and the clouds seem to have been developed too blue, killing shades of brown. (This may have been an attempt to suppress the evidence.) Also there was supposed to be 200 000+ gallons of water on the roof of each tower – this water was spilled into stairwells etc, but was later all converted into water vapour reducing the brown color.
4) Superheated steel objects, disintegrating into steel vapour. Molten ponds of steel were found in the elevator shafts. There were lots of burned cars in the parking areas of the towers. The fire department did not announce until 12/19/2001 that the fires under the WTC rubble have been distinguished (more than 3 months after the incident). For more, see (Gehue plate 8)
location F C name
A 1341 727 WTC7
B 1034 557 WTC7
C 1161 627 WTC1
D 963 517 WTC1
E 819 437 WTC3
F 801 427 WTC2
G 1377 747 WTC2
H 1017 547 WTC4
The thermal survey of the WTC 9/16/2001 (NASA /US Geological Survey). Despite of fire department having cooled the rubble, aluminium would still be melting in some sites 5 days after the incident.
5) Elevated values of tritium in this area, but not elsewhere in New York. The University of California found elevated values on 9/13/2001 and 9/21/2001 within bounds of the WTC. They found them harmless for health. In pure hydrogen bomb isotopes of hydrogen are fused (D + T > n + a + 17.6 MeV).
6) An EMP-type phenomenon blacked out cellular phones at the moment when the first (southern) tower started to 'fall down', at the exact moment when a small thermonuclear bomb was detonated. Even in electronic cameras and videos a strange afterglow was seen in the late phase of the 'collapse' of both of the towers. See Gehue plate 5
7) A wave of pressure was witnessed in the root of the tower at the moment when the so-called collapse was progressing just about two hundred meters and nothing had fallen down to earth. The blast wave turned over for example a photographer and a fireman close to the entrance, who was taking photos of the dust cloud. The burst of the dust cloud on the root of the tower was photographed as well. In the image at the left below is what probably was the explosion of WTC 6. The Customs building was deliberately exploded for some reason - it was not damaged because of the falling girders as they had not yet reached the roof of WTC 7 when the photo was taken. A couple of seconds later the clouds of the explosion were already partly above the roof of WTC 7, which was too energetical to be caused by usual blasting agents. This suggests it was the second hydrogen bomb in the WTC block. The first hydrogen bomb is discharging upwards (pulverized concrete) exactly in the picture, and the steel structures vaporized by the bomb are already falling down 100 meters (approx. 328 ft.) farther down. The mass of cloud, caused by vaporized steel, is seen in the center of the picture and even more clearly in the picture at the right.
8) In the cellar, out of all the 47 ultra strong steel pillars, the steel was melted completely at the length of more than 20 meters (approx. 65 ft). Even cars were melted and burned in the cellar. The pillars were far too thick for thermite, which some have suggested. An explosion of a thermonuclear bomb explains the phenomenon well.
9) Steel columns and pillars were ejected in the surroundings of the building. In the beginning of the so-called collapse, exists no such energy exists that could throw steel pillars outwards from 60 to 175 meters (approx. from 170 to 574 ft.) from trunk. Not even cutting charges can do that. Instead, the blast wave from a nuclear bomb is capable to do that.
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View of a Military Expert: Why the Towers of the World Trade Center collapsed
www.saunalahti.fi/wtc2001/soldier5.htm (check site for pictures)
The airplanes did not a have true effect on the destruction of towers; they were needed to give an excuse for odd Orwellian wars at the same time when the USA is turned into a police nation, like the German Third Reich, to some extent. The towers took the impacts of crushing Boeing 767's. The towers were originally built to take impacts of Boeing 707's, which are approximately of the same size and was widely used in the 1970's.
Fires that kindled from the fuel in the planes were too shortlasting and weak to be able to severely damage the structure of the skyscrapers. Even in the extreme situation, the heat from a kerosene fire cannot threat the durability of a steel trunk. With the temperature of carbohydrate fires that reaches only 825°C (approx. 1517°F) steel weakens at 800°C (approx. 1470°F) and melts at 1585°C (approx. 2890°F). In the skyscrapers of the WTC the surroundings were not at all ideal as there were far too many steel columns and they led heat away from the burning area. WTC 1 burned for 102 minutes and WTC 2 for 56 minutes only. A fire burning much longer, from 10 to 20 hours, could slowly increase the burning temperature down to perhaps 1100°C (approx. 2010°F). Provided there is more substance to burn, such a fire will damage concrete and irons, but not severely heavy steel constructions.
In mid-February in Madrid, the Windsor Tower (see above) burned for over 20 hours, which led to a fire stronger and hotter than that in the WTC, but even the collapses of the Windsor Tower caused by the very strong and long-enduring fire were minimal and limited to the upper floors. If either of the WTC tower had started to collapse because of fires the collapse would have been limited to only a few of the floors and then stopped.
The impossibility of a gravitational collapse is closer seen in other documents. A collapse would produce large pieces, and does not explain reports of fine dust from concrete, huge amounts of dust and pieces of steel ejected outwards.
Destruction of the towers by explosions is clear according to the photographs and reports of the eye witnesses. In the picture below, a range of cutting charges have just exploded in the down left sector and a typical white cloud is formed outwards from the wall. Down right, explosions are seen as well. Even a flame is seen.
In video tapes taken of the so-called collapses of the WTC, more explosions of these cutting charges can be seen. The explosions advance quickly, with a gap of a couple of floors, cutting the strong steel pillars in the outer wall. The explosions are timed so that it appears that the tower collapses occur in the same timing as in a gravitational collapse. The explosions are not completely synchronized in timing, probably a few charges are triggered by radio, and other charges explode out of the impulses of one of these charges (infrared, pressure wave).
More challenging problems to the demolition men, however, were the central cores of the buildings and the 47 steel pillars more robust than the ones on the outer rounds. The pillars of the central cores were made of steel even 100 + 100 mm thick, thicker than the side armours of a battle tank. Cutting those, even with explosives, is extremely difficult. One would need to surround the whole pillars, every single pillar on every floor intended to get blasted, with powerful cutting charges. These charges would have needed to be placed in such a way that the users of the skyscrapers could not notice these preparations.
As seen in the following pictures, the cores of the towers were not distracted by thousands of powerful cutting charges but by a modern thermonuclear explosive, a small hydrogen bomb. In the picture below, a hydrogen bomb explosion, the bomb having been placed in the cellar and directed to the core, has reached the roof of the tower and the upper parts of the outer walls. On its way up the waves of fire pressure partially penetrated about 100 floors of concrete and steel. Over ten million degrees of heat caused by a hydrogen bomb sublimised all water within the concrete in a moment. Water exploded extremely quickly into 1000-fold volume and totally pulverized the concrete. Even people and computers that were in the buildings disappeared turning into heat and light. That is why almost nothing of them was found in the ruins.
Burning radiation is absorbed in steel so quickly that steel heats up immediately over its melting point 1585°C (approx. 2890°F) and above its boiling point around 3000 C (approx. 5430°F). In the pictures down below, super hot groups of steel pillars and columns, torn from wall by pressure wave, are sublimized. They immediately turn into a vaporized form, binding heat as quickly as possible. Bursts upwards, even visible in the picture below, are not possible for a gravitational collapse or for cutting charges which are used horizontally.
Storax Sedan 104 Kt shallow underground
In the upper picture the explosion is in theory 100 times stronger than in the picture below, but in practice the difference is only four times due to the capability of direction of the small hydrogen bomb.
In the picture at the right, the brown shades caused by a hydrogen bomb are seen, while the top of the tower that is already collapsing is breaking down and the posture straightens up as the hydrogen bomb pulverized the core and it lost all its resistance. The piles point the blasts of the cutting charges. (Gehue plate 12)
Steel pillars are turned into dust.
Extremely hot, sublimating pieces are not created with many methods.
For comparison, pictures of subterranean nuclear explosions where the explosion is blasting onto surface and into the air:
Ess1.2 Kt
WTC 2
Banberry 10 Kt underground
Radioactivity in air creates shades of brown. (The subterranean nuke in the picture on the right is 10 times stronger than the small nuke on the left.) This is the reason why the FBI did not search the crime scene. Ground zeros of nuclear weapons are a health risk and belong to the FEMA.
