Title: Wizard of Oz Verified by using New Testament Verification Methods Source:
yt URL Source:[None] Published:Feb 13, 2011 Author:. Post Date:2011-02-13 08:25:16 by PSUSA Keywords:None Views:971 Comments:63
Look how nice and neat and tidy my tagline is. Then look at yours. It's all big and messy and sloppy and reads like gobblydegook. Good heavens man, get a hold of yourself.
Notice how the Tinman didn't vanish or shape-shift much into mismatched parts when he crashed, like the "9/11 Fantastic Four planes" did? Here's where you'll probably want to say something pseudo-scientific to explain that like they just didn't make metal for those particular flying machines like they used to.
Notice how the Tinman didn't vanish or shape-shift much into mismatched parts when he crashed, like the "9/11 Fantastic Four planes" did? Here's where you'll probably want to say something pseudo-scientific to explain that like they just didn't make metal for those particular flying machines like they used to.
I have no idea what you are trying to say, but when you crash at about about 400-500 mph, there isn't much left of the parts, either of the plane or of the people aboard. It would be pseudo-scientific of me if I claimed otherwise.
An aluminum airplane wouldn't slide through steel and concrete like a hot knife through butter. At 400 mph, it would crumple on impact.
"Why would the government fake crashing planes into the WTC towers and thereby also having to fake all the crash videos when it would be much easier for them to crash real planes into them?"
An aluminum airplane wouldn't slide through steel and concrete like a hot knife through butter. At 400 mph, it would crumple on impact.
I too find it hard to believe that an aluminum hull aircraft can neatly melt into a building the way we see in this depiction of UA 175 making the second WTC strike into the South Tower. Intuitively, many of us find the absolute lack of deformation in the aircraft and the preservation of the relationship of the major structural components of the throughout the duration of the impact shown hard to swallow. Really though, which one of us can say conclusively that what is depicted here is impossible?
What I find even more difficult to fathom however, is the NY television station video of the nose of the aircraft exiting the South Tower. I have held a radome from a smaller aircraft in my hands. I believe that it was made of a carbon fiber composite. The tip of an airliner is made of the same material. Although it is tough, it would not take much effort to irreparably damage a component like this with a ball peen hammer. Then there is the hull surrounding the cockpit. Like the rest of the aircraft fuselage, it is just an aluminum shell.
In the video you posted,wudidiz, we see the nose of the UA 175 melt into the south side of the building. In the following video we see it miraculously emerge out of the north face of WTC II:
I don't have time to engage in the "no planes" debate with anyone here. I'm throwing this in the hopper for you all to chew over. But I'll do so with a warning. You are all aware of how deep the rabbit hole is. I am very leery of presenting this kind of stuff to the uninitiated or even arguing this hypothesis with those that have been studying these events for the last ten years. It quickly gets too abstruse and the implications are just too wild for most folks to even contemplate. When I talk to those that hold conventional opinions regarding the contradictions in the reported facts of the events of 9/11 I just don't go there. Folks will have to dig this up for themselves, as far as I'm concerned.
What they also need to include is the other angles
I think that they have crammed all the videos that I've seen of the second attack into this video where a simulation shows an airspeed of 581 mph (487 knots) just before impact:
Do you see the forward part of the aircraft exit the building in all of them?
The VMO or VNe, the maximum or never-exceed speed at sea level is 360 knots.(Impact is at 300 meters.) It's been suggested that the turbines will rebel at these speeds so close to the ground and start to act as a brake. Some have stated that you can't control a 767 at such altitudes over 220 mph. The g's in the dive depicted here would also be daunting for a pilot as is suggested in the video I've posted.
I can't of course vouch for all this, but I find this sort of speculation pretty hair-raising, Eric.