Of course, this fellow also thought those big power lines out in the country side were designed to walk (hence, their general bipedal appearance) in case of earthquake or other disasters...
That is so awesome...
Back onto the OP though...
As a layman... one thing that often bugs me. There is much talk of the energy required to crush the initial floors and get the party started.
Someone made a reference of several GJ of energy just for the first moments. It is also used in reference to the top section remaining intact at initiation of collapse.
This all works on the notion that the building is sitting there happily intact, and suddenly from some where enormous forces compress the top floors through those immediately beneath.
I would agree that such a thing was impossible. Had that been what happened to the towers, I'd be joining those in demanding an explanation.
But that's not what happened. As a layman, watching video and photographs, I can see that's not what happened. The experts who studied the collapses have never said that happened. The witnesses on the scene never said that happened.
The only people claiming that happened are the people who are also saying that COULDN'T have happened. Go figure.
Here's what I understand to have happened:
-Airliner crashes into building, severing columns, destroying floors, and exposing steel by stripping fire proofing.
-Extensive fires burn through many floors.
-Floor trusses heat up from the fires and begin to sag.
-Some floors partially or completely collapse under the loading. The remaining trusses sag further, pulling the exterior walls inwards producing shear stress (is that the right word?). Basically, the forces stops being compression.
-The hat truss transfers loading from severed core columns to exterior columns, further loading the bowing exterior walls.
-At some point the bowing of the exterior walls reaches a critical point at which the excessive loading becomes more than the material can resist. At this point the exterior wall, as a structural element, fails.
Now. What happens next?
Well, as we know, by this stage the floor trusses in the impact area have already structurally failed - they have either collapsed already, or are sagging. This means, once the exterior walls fail, the only structural integrity within the collapse zone is the core columns - many of which have ALSO been severed or damaged.
Remember, the sagging of the walls occured across the entire impact zone. That means failure was simultaneous across this entire zone. What happens if you instantly remove the exterior and floor trusses of 5 or 6 floors? Will the damaged core manage to keep the upper floors floating above?
Of course not. The upper section will immediately begin to fall through the collapsed space. It will meet no resistance until it comes into contact with the intact floors immediately below the impact zone.
So the issue is, how much energy does this upper section of floors have, after having free-fallen through the space of five or six floors? And is it enough magnitudes of energy greater than the dead load of the upper floors to overcome the redundancy of that first intact floor, resulting in continuation of the collapse?
Because the way I see it, logically, if that first intact floor did not stop the collapse, there's no way any other floor below it was going to stop the collapse. Unless anyone is capable of explaining how that first floor would stop the collapse, their cause is lost.
-Gumboot
