ACT II, PART II
Some websites, however, claim otherwise. Bizarrely enough, some of
these same photos are cited elsewhere as evidence that a 757 did
crash into the Pentagon.
The photo below, for example, supposedly
depicts aircraft debris -- and remarkably uncharred aircraft debris
at that. If you’re having trouble finding it, here’s a hint: it’s
the green stuff.
If you’re wondering how we can be sure that it is
in fact aircraft debris, it’s really quite simple: it has to be
aircraft debris, you see, because it’s green...
Such is the level of
investigative analysis employed by at least one ’debunker.’ Before I
learned the proper way to identify aircraft wreckage, I had assumed
that the green stuff was probably just broken up office furnishings
of some sort.
And I also had no idea that a few flimsy pieces of
debris could cleanly punch out a large hole in a beefy masonry wall.
As I explained in my first Pentagon rant, it would have been
physically impossible for the nosecone, or any other component, of a
Boeing 757 to punch out an exit hole in the "C" ring of the Pentagon
after plowing through three entire building rings.
As the Los
Angeles Times noted, five days after the attacks, the Pentagon was
“built to be as strong and impenetrable as this country always hoped
its military would be …
When ground was broken on the
building--eerily, on September 11, 1941, exactly 60 years before
Tuesday’s attack--it was a state of the art bunker.”
(http://www.latimes.com/news/nationworld/nation/la-091601pentagon,0,1620389,print.story)
The Pentagon is an immense, and immensely strong, structure. It is
composed primarily of thick, steel-reinforced concrete. The exterior
walls are a full two feet thick – two feet of solid concrete, brick
and limestone (see wall detail,
below right). As a pictorial study of
the building noted, “the main interior walls above the basement
level are of masonry” as well. Throughout the entire complex, spaced
roughly fifteen feet apart, in both directions, are thick,
steel-reinforced concrete columns (see example,
farther below). Also
throughout the complex are,
“Transformer vaults and machine rooms …
protected by masonry walls and firedoors.” (http://www.greatbuildings.com/buildings/The_Pentagon.html)
The buildings’ floor slabs are composed of 5.5 inches of
steel-reinforced concrete. To add further to the total mass of
concrete that makes up the Pentagon, “concrete ramps instead of
elevators were used to connect the floors,” according to the
Department of Defense’s History of the Pentagon. The same source
adds that,
“By 30 April 1942, about eight months after ground
breaking, the contractor completed the first two sections of the
building and War Department personnel began to move in.”
(http://www.greatbuildings.com/buildings/The_Pentagon.html)
I will leave it to the serious conspiracy theorists in the crowd to
ponder the significance of the date of ground-breaking and the date
of initial occupation. The point here is to emphasize the number of
thick, dense, reinforced concrete obstacles that would hinder the
forward progress of any projectile attempting to pass through the
Pentagon. To cleanly penetrate just one ring would require blasting
through two 24” thick masonry walls, several masonry interior walls
(notice the cross-section of "E" ring provided by the post-collapse
photos), numerous concrete support columns, and maybe a concrete
ramp or a concrete transformer room. Also, since a 757 fuselage (see
below -- and notice, in the front view, the ’pods’ visible on the
underside) would not easily fit between floors, and since the
official story claims that the plane entered between the first and
second floors, it would have to rip its way horizontally through a
considerable amount of steel-reinforced concrete floor slab.
The L.A. Times (and many other sources) added that, in addition to
all the reinforced concrete, the portion of the Pentagon that was
hit in the attack had recently been “reconstructed with a web of
steel columns and bars to withstand bomb blasts.” In other words,
the Pentagon in general, and especially the portion affected by the
attack, is an extremely well fortified building. An airplane
blasting through three rings of the complex would be roughly
equivalent to an airplane blasting through a whole series of
concrete bunkers.
Another interesting fact about the Pentagon attack that is
frequently ignored is that, in order for the official story to be
true, the ’airplane’ that hit the Pentagon had to be flying in an
almost perfectly horizontal trajectory at an extremely low altitude
-- mere feet off the ground. And it had to be flying at a rate of
speed that would have allowed it to maintain that trajectory, losing
almost no altitude, even as it was plowing its way through dozens of
reinforced concrete obstacles.
The nosecone of a Boeing passenger plane, pictured below, is
composed of carbon. Its function is to serve as an aerodynamic cover
for the aircraft’s navigation system. It is not designed to be
utilized as, and it will not perform well as, a missile warhead.
Impact with the very first masonry wall would have completely
obliterated the plane’s nosecone and enclosed electronics. The
plane’s fuselage, composed primarily of strong yet lightweight
metals, would have fared only slightly better.
If we were to play along with the official story, we might propose
that there are two components of a Boeing 757 that might have had
sufficient mass and density to punch out such an exit wound: one of
the engines, or a portion of the fuselage that had been thoroughly
compacted by previous impacts with dense masonry walls and concrete
columns. But again, it must be said that while such components might
well have punched through multiple walls in one ring of the
Pentagon, they certainly could not have punched cleanly through
three entire rings.
The official story maintains that, rather then a dense mass of
metal, it was the lightweight carbon nose of the aircraft that
punched out the exit hole. According to the National Fire Protection
Association’s Online Journal,
"Captain Defina and airport Battalion
Chief Walter Hood, as well as other jurisdictions’ battalion chiefs,
led crews inside with attack lines to fight fires on every floor of
the ’D’ and ’E’ rings. The aircraft had penetrated all the way to
the "C" ring. ’The only way you could tell that an aircraft was
inside was that we saw pieces of the nose gear. The devastation was
horrific.’" (http://www.nfpa.org/NFPAJournal/OnlineExclusive/Exclusive_11_01_01/exclusive_11.01.01.asp)
Arlington County Fire Chief Ed Plaugher, when asked at a Department
of Defense news briefing about the presence of jet fuel, responded:
"We have what we believe is a puddle right there that the -- what we
believe is to be the nose of the aircraft. So -- " (http://www.defenselink.mil/news/Sep2001/t09122001_t0912asd.html)
To account for these reports of surviving nose gear, and to account
for an alleged exit hole that couldn’t possibly have been punched
out by a passenger airplane, I suggested in my previous Pentagon
rant that the damage was likely caused by a particular type of cruise missile -- specifically, a
Boeing AGM-86C Conventional Air
Launched Cruise Missile (CALCM) outfitted with a depleted uranium (DU)
warhead. Here are excerpts of what I wrote back in June 2002:
How it operates is explained by the Federation of American
Scientists:
"After launch, the missile’s folded wings, tail surfaces
and engine inlet deploy. It is then able to fly complicated routes
to a target through the use of an onboard Global Positioning System
(GPS) coupled with its Inertial Navigation System (INS). This allows
the missile to guide itself to the target with pinpoint accuracy."
The FAS website also comments on the missile’s "small size and
low-altitude flight capability, which makes them difficult to detect
on radar."
The AGM-86 also can be equipped with a "penetrating" warhead,
designed to cut into hardened bunkers. As the FAS describes it:
"The
AGM-86D Block II program is the Precision Strike variant of CALCM.
It incorporates a penetrating warhead, updated state of the art,
near-precision, GPS guidance, and a modified terminal area flight
profile to maximize the effectiveness of the warhead."
The American Scientists also discuss a,
"feasibility study [which]
was concluded in April 1997, in which it was determined the BROACH
Warhead on CALCM would offer very significant hard target
capabilities ... The BROACH multi-warhead system ... achieves its
results by combining an initial penetrator charge (warhead) with a
secondary follow-through bomb, supported by multi-event hard target fuzing."
Everything seemed to fit -- the clean initial penetration, the low
altitude flight capability, the ability to evade radar, the ability
to penetrate multiple reinforced targets. Other researchers
apparently liked the fit as well. As I mentioned in Act I, I
recently read portions of an online version of David Ray Griffin’s
book,
The New Pearl Harbor. While doing so, I noticed that
Mr.
Griffin seems to favor the notion that what hit the Pentagon was
"one of the latest generation of AGM-type missiles, armed with a
hollow charge and a depleted uranium BLU tip." Griffin credits that
theory to Thierry Meyssan.
Last time I checked, Meyssan was selling a truck bomb theory, so I’m
not really sure where he and Griffin picked up that crazy AGM
missile theory, but after carefully reviewing the photographic
evidence, I can now say with considerable confidence that it wasn’t
a missile warhead that punched out that exit hole. I can say that
because it is perfectly obvious that the ’exit’ hole wasn’t actually
an exit hole at all.
First of all, though no one seems to have given it much serious
thought, it is not in the right location to be an exit wound. True,
the hole is where it should be if a projectile following the alleged
trajectory of the alleged plane sliced through the building in a
perfectly straight line from the point of entry. But that would
never actually happen in this place that we call the ’real world.’
In the real world, when a fast-moving projectile strikes a flat,
dense, stationary object at an angle (in this case, an angle of
approximately 45 degrees, by most accounts), something called
deflection comes into play.
It’s been a little while since I had a math or physics class, so I
am not going to try to impress anyone here with any complicated
calculations -- which would be meaningless to most people anyway
(including me). Instead, I am going to make the common sense
observation that, due to a projectile’s tendency to deflect off of
an immovable (relatively speaking) flat surface when striking at an
angle, it takes considerably more energy to penetrate at an angle
than it does to penetrate head on. And when a projectile does
penetrate through an angled surface, the trajectory of that
projectile will change due to deflection.
The degree of deflection will largely depend upon the speed and mass
of the projectile, and the density of the immovable surface being
impacted/penetrated. If the projectile is traveling at sufficient
speed and has sufficient mass, and the angled surface offers minimal
resistance, then the deflection will be minimal. However, as the
projectile’s speed decreases with each successive penetration, each
subsequent obstacle will offer greater resistance, and, due to the
cumulative effects of deflection, will be struck at a progressively
sharper angle, so that, after a given number of
impacts/penetrations, the projectile will have lost sufficient
velocity, and/or it will be traveling at such a severe angle, that
it will, rather than penetrating, ricochet off the next masonry wall
or concrete column in its path. In the case of the Pentagon, this
would happen long before a projectile plowed through three entire
rings of the complex.
Even if we were to accept that the projectile did manage,
miraculously and in violation of various laws of physics, to plow a
perfectly straight course through three entire rings of the
Pentagon, we would still be left with one rather perplexing
question: if whatever punched that hole still had sufficient mass
and velocity to blast cleanly through two feet of solid concrete,
brick and limestone, then what stopped it from continuing on into
the Pentagon’s "B" ring?
Once it exited "C" ring, after all, there
was nothing between it and the next exterior wall but about forty
feet of air, which doesn’t normally offer much resistance. And yet,
according to all reports (and the photo to the
right), the damage did
not extend beyond "C" ring. So what exactly was it that stopped the
forward progress of the alleged projectile after it cleanly exited
"C" ring?
Below is what is purported to be the official damage report on the
Pentagon. Notice that in "C" ring, none of the structural columns in
the alleged path of travel suffered significant damage. Just for
fun, take a straightedge and try to map out a path of travel from
the entry hole to the exit hole that does not pass through one or
more of those largely undamaged columns. Let me know if you succeed.
What are we to conclude happened here? Did the strangely
indestructible nosecone of Flight 77 somehow weave its way around
those columns on the way out of the building? Or did it careen
around as if it were in a giant pinball machine until, magically, it
somehow ended up right back on course and with sufficient energy to
punch its way out? Perhaps I am just a bit of a skeptic, but somehow
I find either of those scenarios rather unlikely.
So there are, it seems, at least three questions raised by the
existence of the ’exit’ hole:
-
How did the projectile plow through
dozens of concrete obstructions and yet still retain enough energy
to cut cleanly through a two-foot-thick masonry wall?
-
Once it exited
"C" ring, what stopped the projectile’s forward progress?
-
And how
did the projectile manage to avoid hitting a whole series of columns
on its way out the newly created back door?
(click images to
enlarge)
As the photo to the right reveals, the space between rings "C" and
"D," and between rings "D" and "E," is not empty space (as I had
erroneously believed when I penned my previous diatribe); rather,
those rings are connected, but only for the first two floors. Notice
that that there is no visible damage to the second-story roof
between "C" and "D" rings, nor is there any visible damage to "C"
and "D" rings themselves, with the exception of the blackened
’exit
hole’ (and two additional blackened openings in "C" ring apparently
created by firefighters to gain access to the building). It would
seem then that there was no significant damage to the building
complex above the second floor, at least beyond "E" ring.
In fact, even in "E" ring, the alleged point of entry, there doesn’t
appear to have been much significant damage above the second floor.
As can be seen in the post-collapse photo above, all the structural
columns above the second floor appear to be intact, and, remarkably
enough, there doesn’t even appear to be a significant amount of fire
damage above the second floor. Furniture sitting right next to the
point of collapse appears to be unscathed. The same was largely true
of the area on the other side of the collapse, as can be seen in the
below photo to the lower right, which presents a view across the chasm
after the clean-up had begun.
There is nothing suspicious or unusual, by the way, about the clean
break between the collapsed and standing portions of the building.
Some theorists have mistakenly attached significance to the fact
that it looks as though the Pentagon was cleanly sliced. The truth
is that the building gave way at what is known as an expansion joint
(a built-in break to allow for expansion and contraction), which is
exactly where a collapse would be expected to occur, if it was to
occur at all (it is marked as an expansion joint on the damage
report presented previously, and an expansion joint can be clearly
seen running along the roofs of the surviving rings in the aerial
photos, directly in line with the ’slice’ in "E" ring).
The point that I started to make here though is that, with the
exception of the collapsed portion of "E" ring, all the structural
damage, and nearly all the fire damage, was confined to the first
and second floors. It appears as though the fire, from its origins
at the point of impact, primarily burned along the roof (until,
presumably, firefighters got it under control). As can be seen in
the views to the left and upper right, it burned only along the
segments of the roof composed of the blue colored material, which
doesn’t appear to have been very fire retardant. The apparent lack
of fire damage to the upper floors of the adjoining buildings tends
to indicate that it was primarily the roof, and not the buildings
themselves, that suffered significant fire damage.
But if the vast majority of the significant damage was to the first
and second floors only, to such an extent that a second-story roof
over a portion of the alleged path of travel shows no visible signs
of damage, then we are not really being asked to believe that an
enormous 757 jumbo jet disappeared without a trace into a five-story
building; incredibly enough, we are actually being asked to believe
that it essentially disappeared without a trace into a two-story
building!
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