Wrong. A Boeing 767 is NOT made of "just" aluminum. There is steel everywhere—in the wings, all through its structure. The 767 has a steel skeleton structure throughout.
Comparing the Amsterdam crash—where a plane fell out of the sky to the ground—is far different than a plane at max design speed hitting a mostly hollow structure. How did it go through? Kinetic energy is everything. Did you know that cutting force depends on the speed of sound in the material? The steel in the 767 would not begin to significantly deform until it falls below this threshold, allowing the steel to cut through like butter. This is why we see 2x4's going through concrete walls in hurricanes.
So the "nose out" video is what then exactly? You're trying to tell me that the nose cone of a 767 could make it all the way through the building and stay intact - wow!
You're comparing wood going through plaster as an analogy for aluminum cutting through steel?
Yes, there's steel in a plane; a plate of steel as a floor and rings of steel so the plane doesn't deform in the air.
The ONLY part of the plane to have enough density to cut through 1" red iron is the engines. The rest is simply lacking in density. Especially the wings cut out, that's cartoon level.
Wrong. A Boeing 767 is NOT made of "just" aluminum. There is steel everywhere—in the wings, all through its structure. The 767 has a steel skeleton structure throughout.
Comparing the Amsterdam crash—where a plane fell out of the sky to the ground—is far different than a plane at max design speed hitting a mostly hollow structure. How did it go through? Kinetic energy is everything. Did you know that cutting force depends on the speed of sound in the material? The steel in the 767 would not begin to significantly deform until it falls below this threshold, allowing the steel to cut through like butter. This is why we see 2x4's going through concrete walls in hurricanes.
Removing this garbage
So the "nose out" video is what then exactly? You're trying to tell me that the nose cone of a 767 could make it all the way through the building and stay intact - wow!
Link?
There are better clearer/cleaned up examples but couldn't be assed to go dig them out. https://www.dailymotion.com/video/x2wzsyp
You're comparing wood going through plaster as an analogy for aluminum cutting through steel?
Yes, there's steel in a plane; a plate of steel as a floor and rings of steel so the plane doesn't deform in the air.
The ONLY part of the plane to have enough density to cut through 1" red iron is the engines. The rest is simply lacking in density. Especially the wings cut out, that's cartoon level.
https://911planeshoax.com/