WTC: Rate of Fall (rate of crush)

That is interesting . . . so the block rotation was arrested by the resistance of the intact building below, but the same resistance isn't sufficient to slow the collapse beyond 10% of a free fall rate in a vaccuum . . .

That's correct (assuming 10% is notional, there's a few estimate of the actual ratio), because the rotation is not being driven by gravity at that point, as the upwards resistance is evenly distributed.

So the resistance needed to stop the rotation is similar in scale to the resistance need to stop the building moving slowing in the absence of gravity.

It's like the difference between pushing a car on a flat road and lifting the car off the ground.
 
Before you arrived here.


28% or 36% of free fall.

The temporarily-intact core would tend to "thread" the falling floor conglomerate back to the vertical. The external fragments would continue their trajectory and maintain their angular velocity.

WTC I . . . I don't think this research supports your inflated numbers . . .
So the collapse of the tower must be an almost free fall.
This conclusion is supported by the observation that the duration
of the collapse of each tower, reported as roughly 10 s, was about
the same as the duration of a free fall in a vacuum from the tower
top
H5416m to the top of the heap of debris (H0525 m),
which is
t5A2(H2H0)/g58.93 s. It further follows that the
brunt of vertical impact must have gone directly into the columns
of the framed tube and the core, and that the front of collapse of
the floors could not have advanced substantially ahead of the
front of collapse of the framed tube, since otherwise the collapse
of the framed tube would have had to take significantly longer
than 9 s.

https://www.metabunk.org/files/Why Did the World Trade Center Collapse-Simple Analysis.pdf
Content from External Source
 
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Yes. Slide off. No mistake. It's got momentum, it's a big mass moving in a direction. It's just physics! Please, think about it. It all says: Dude the whole top of the building just...etc. But 'something else' or 'other' happened.

It's rotating, and pretty slowly too. The upwards force on the left stops the rotation.

What "else" could be happening? Can you suggest a single possible explanation? Magic? Space rays? Invisible explosions off to the left? Magnets?

More important - the towers weren't ultra long layers of horizontals with four fat bits in the middle. I'm sure you could render them more accurately.



You want the middle bits a bit fatter?
 
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There's a good mathematical treatment of the tilt here:

http://www.911myths.com/WTC2TIP.pdf

5.0 Summary and Conclusions
The collapse of WTC 2 began with a tilting or rotational motion of the upper section of
the Tower about a “hinge” at the 80th floor. This rotational motion, which commenced at
a tilt angle about 2 degrees, was caused by an almost instantaneous multi-column failure that
eliminated the structural support on one side of WTC 2 near the impact zone. Once set in
motion, the upper block moved with a nearly “free” rotational trajectory of a body
pivoting under the constant force of gravity. This behavior was sustained at tilt angles up
to about 25 degrees. Thereafter the motion of the block changed somewhat although the
suggestion that the tilting suddenly stopped is not correct.


What appears to happen is that the tilting upper section was continuously crushed near
the 80th floor by its own momentum so that the rotation was no longer that of a rigid
body. Eventually the "hinge" at the northeast corner failed and the descending block took
on a more vertical motion. Interestingly, once the hinge failed, and the pivot became
frictionless, the motion of the center of gravity is predicted to become vertical, causing a
shift in the rotational axis. Unfortunately, however, details of this stage of the WTC 2
collapse were obscured by smoke, dust and flying debris.
Content from External Source
Details in the the pdf.
 
Mick said:
So the resistance needed to stop the rotation is similar in scale to the resistance need to stop the building moving slowing in the absence of gravity.

It's like the difference between pushing a car on a flat road and lifting the car off the ground.

I don't discount your analogy but even pushing your car requires expenditure of TIME and effort . . . the point is there was resistance even if small . . . the question is was the resistance the amount expected? . . . more or less than expected? . . . thanks for indicating the resistance required was minimal . . . then what happened to it (resistance) if more was expected?
 
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I don't discount your analogy but even pushing your car requires expenditure of TIME and effort . . . the point is there was resistance even if small . . . the question is was the resistance the amount expected? . . . more or less than expected? . . . thanks for indicating the resistance required was minimal . . . then what happened to it (resistance) if more was expected?

Yes, pushing a car require time, but the block slowed its rotation over time.

Let's re-phrase the analogy a little, as it's something people can usually imagine, we've all pushed a car at one time or another.

Consider there's a car (an small one, VW Golf or so)



It's rolling toward you on a flat road at 2mph. You try to stop it. You can probably do it within a few seconds.

Now imagine the same car, but this time it's on a 45 degree slope. It's rolling down towards you at 2mph. How long does it take you to stop it?

You can't stop it. It would run you over, barely slowing at all, and within a few seconds would be doing 30mph, and still going.

Extend that to the vertical. You're on a cliff. The car is suspended an inch above your head. Someone cuts the rope.

In all cases the car has the same mass. But on the flat ground, you are just fighting inertia and friction. When gravity gets involved, then you lose.

So arresting rotation require minimal effort. A car that is slowly spinning on a turntable is no harder to stop than a car slowly moving on flat ground (in fact it's quite a bit easier, if you measure speed along the outer radius). But arresting downward motion under gravity is vastly harder. It requires that you exert a force greater than that of gravity.

Let's put some figures on that. A car weighs 3,000 pounds. Let's say you are an average person, strong enough to deadlift 100 pounds, and can apply the same strength to pushing the car. So that means that you are exerting a force on the car 1/30th that of gravity's pull on the car.

So force required to push or turn something slowly is vastly less than the force required to stop something falling. We are using very rough figures here, but 1/30th for pushing, or maybe 1/50 for turning.

So given that the block stopped turning over a second or so does not mean that very much force was needed. Indeed it indicates that the resistance of the floors below was only a small fraction of the force of the block under gravity. Hence the resulting very little difference in acceleration due to gravity as the block fell. The building could no more slow the block than you could slow the Volkswagon rolling down a steep hill.
 
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George, I don't think it is unreasonable to ask for math that might support your assertion that the building should not have fallen the way it did.

But no one seems able to provide mathematical support for the assertion of progressive collapse, despite Mick's heroic attempt, so I think yes it is unreasonable to ask George
 
Yes, pushing a car require time, but the block slowed its rotation over time.

Let's re-phrase the analogy a little, as it's something people can usually imagine, we've all pushed a car at one time or another.

Consider there's a car (an small one, VW Golf or so)



It's rolling toward you on a flat road at 2mph. You try to stop it. You can probably do it within a few seconds.

Now imagine the same car, but this time it's on a 45 degree slope. It's rolling down towards you at 2mph. How long does it take you to stop it?

You can't stop it. It would run you over, barely slowing at all, and within a few seconds would be doing 30mph, and still going.

Extend that to the vertical. You're on a cliff. The car is suspended an inch above your head. Someone cuts the rope.

In all cases the car has the same mass. But on the flat ground, you are just fighting inertia and friction. When gravity gets involved, then you lose.

So arresting rotation require minimal effort. A car that is slowly spinning on a turntable is no harder to stop than a car slowly moving on flat ground (in fact it's quite a bit easier, if you measure speed along the outer radius). But arresting downward motion under gravity is vastly harder. It requires that you exert a force greater than that of gravity.

Let's put some figures on that. A car weighs 3,000 pounds. Let's say you are an average person, strong enough to deadlift 100 pounds, and can apply the same strength to pushing the car. So that means that you are exerting a force on the car 1/30th that of gravity's pull on the car.

So force required to push or turn something slowly is vastly less than the force required to stop something falling. We are using very rough figures here, but 1/30th for pushing, or maybe 1/50 for turning.

So given that the block stopped turning over a second or so does not mean that very much force was needed. Indeed it indicates that the resistance of the floors below was only a small fraction of the force of the block under gravity. Hence the resulting very little difference in acceleration due to gravity as the block fell. The building could no more slow the block than you could slow the Volkswagon rolling down a steep hill.
There are several differences here in the larger picture . . .

1) So the VW is really a few inches from you when someone cut the rope and you are capable of holding up the VW . . . since you have been there for the last 20 years . . . you are really one strong dude . . .
2) Do you fall like a weakling or do you at least slow the fall significantly . . . also people below you are stronger than you . . . of course, as you fail and fall the people below you have to stop you and the VW . . . that is understood . . .
3) but this is not what the doubters are saying . . . they think someone shot a few of the people below you and so you the VW and the whole mess falls without much resistance at all . . .
 
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Before you arrived here.


28% or 36% of free fall.

The temporarily-intact core would tend to "thread" the falling floor conglomerate back to the vertical. The external fragments would continue their trajectory and maintain their angular velocity.

Bizarre.
 
There are several differences here in the larger picture . . .

1) So the VW is really a few inches from you when someone cut the rope and you are capable of holding up the VW . . . since you have been for the last 20 years . . . you are really one strong dude . . .
2) Do you fall like a weakling or do you at least slow the fall significantly . . . also people below you are stronger than you . . . of course, as you fail and fall the people below you have to stop you and the VW . . . that is understood . . .
3) but this is not what the doubters are saying . . . they think someone shot a few of the people below you and so you the VW and the whole mess falls without much resistance at all . . .

Well yes, that's were the analogy fails. But buildings are not like a human pyramid with a VW on top. That's not what is being illustrated. Just the relative magnitude of inertial and gravitational forces on large objects.

Back to Verinage. Floors holding up the above floors for 20 years does not mean they will hold that weight when dropped on them from ten feet up.

Take a 10lb weight and hold it in your hand. Now, keeping your hand in the same position have someone drop that 10lb weight on your hand from ten feet up. How much does your hand move?

(actually, don't try that, you'll probably break something. Just imagine it).
 
I agree, and so does NIST, which is why that was a primary point in their recommendations resulting from the investigations.
Citing its one new recommendation (the other 12 are reiterated from the previously completed investigation of the World Trade Center towers, WTC 1 and 2), the NIST investigation team said that "while the partial or total collapse of a tall building due to fires is a rare event, we strongly urge building owners, operators and designers to evaluate buildings to ensure the adequate fire performance of the structural system. Of particular concern are the effects of thermal expansion in buildings with one or more of the following features: long-span floor systems, connections not designed for thermal effects, asymmetric floor framing and/or composite floor systems." Engineers, the team said, should be able to design cost-effective fixes to address any areas of concern identified by such evaluations.
Content from External Source

But despite their recommendations... there are no, (that I can find), retrofits and given that we are talking about hundreds of buildings this is, IMO, very strange.


Long span flooring is not inevitably dangerous, it just raises additional issues. The recommendations on NIST are aimed at preventing progressive collapse, not eliminating long span floors.

But long span floors are inevitably dangerous if a fire can take out one structural 'joint' and the whole building collapse in a manner easily confused with a professional demolition.

I would have at least thought they would have been at some pains to reassure people that the new 7 has been engineered without the design fault responsible for the old 7's collapse.
 
But despite their recommendations... there are no, (that I can find), retrofits and given that we are talking about hundreds of buildings this is, IMO, very strange.

But long span floors are inevitably dangerous if a fire can take out one structural 'joint' and the whole building collapse in a manner easily confused with a professional demolition.

I would have at least thought they would have been at some pains to reassure people that the new 7 has been engineered without the design fault responsible for the old 7's collapse.

Do you know of any particular buildings that would benefit? I don't think that's exactly the type of thing you can look up on the internet.

Long spans are not automatically now a design flaw. The just need additional consideration to ensure a progressive collapse will not result from a partial collapse.

http://www.wtc.com/about/office-tower-7
Among its many building enhancements, 7 WTC has a reinforced concrete core and a steel superstructure. Safety systems exceed New York City building code and Port Authority of New York and New Jersey requirements and are expected to form the basis for future high-rise building codes. Tishman Construction Corporation served as construction manager for 7 WTC.
Content from External Source
But I really think it's not the kind of thing they like to dwell on. Isn't the fact that it exceeds code good enough?
 
Do you know of any particular buildings that would benefit? I don't think that's exactly the type of thing you can look up on the internet.

Not personally no but it was envisaged by NIST that professional assessments of buildings should be done and remedial refits carried out as required. If there have been none, that leaves 7 as unique in yet another area.

Long spans are not automatically now a design flaw. The just need additional consideration to ensure a progressive collapse will not result from a partial collapse.

http://www.wtc.com/about/office-tower-7
Among its many building enhancements, 7 WTC has a reinforced concrete core and a steel superstructure. Safety systems exceed New York City building code and Port Authority of New York and New Jersey requirements and are expected to form the basis for future high-rise building codes. Tishman Construction Corporation served as construction manager for 7 WTC.
Content from External Source
But I really think it's not the kind of thing they like to dwell on. Isn't the fact that it exceeds code good enough?

Not really as we have already established all the wtc's exceeded the codes and look what happened to them... so frankly that does not cut it.

Re the math... there is an argument going on over that.

http://www.journalof911studies.com/volume/2009/FGvsNewton.pdf
Here is some recent email dialogue, slightly shortened:
Greening: "I would say that Chandler's slight [sic] of hand is the implied notion that
Newton's 3rd Law is universally applicable, even to a collapsing building."
"I would say that the columns and/or the column connections in the damaged/fireaffected
zone have lost enough of their strength so that the upper block can no longer be
2
fully supported by the weakened columns. Thus the upper block of floors moves
downward relative to the base of the tower. Is this such an outlandish proposition?"
downward relative to the base of the tower. Is this such an outlandish proposition?"
Chandler: "Yes, if you think it can avoid Newton's laws in the process."
Greening: "Well, here's my reply: David, you cannot deny that an upper block of floors
moved downward relative to the base of the tower."
Chandler: "I never denied that. Anyone with eyes can see that is true."
Greening: "And yet you consider this to be an outlandish proposition!"
Chandler: "Only if it does so in such a way as to violate the laws of physics (aka
Newton's Laws of Motion). Moving downward [at constant acceleration] through prepulverized
rubble is no problem. Moving downward without deceleration while
crushing columns designed to support several times the weight...now that's a problem
[as it would violate Newton's third law]."
Greening: "It looks to me like you are the one having trouble explaining what was
actually observed that day! I think you need to get out of your classroom more often and
take a look at real world problems. . . . these phenomena are what need to be discussed
and evaluated, not your classroom physics.
Chandler: "[Classroom physics] aka correct physics."
Greening: "Newton's 3rd Law applies to bouncing billiard balls, not the interiors of
collapsing buildings ........"

Chandler: "Someone should sue your professors for malpractice."
Content from External Source
 
I'm sure you could render them more accurately.
These people did.



If the floors are falling downwards, they are hardly likely to slide sideways, especially as each floor is threaded by the internal column assembly. As you can see here.
 
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Not personally no but it was envisaged by NIST that professional assessments of buildings should be done and remedial refits carried out as required. If there have been none, that leaves 7 as unique in yet another area.



Not really as we have already established all the wtc's exceeded the codes and look what happened to them... so frankly that does not cut it.

Re the math... there is an argument going on over that.

http://www.journalof911studies.com/volume/2009/FGvsNewton.pdf
Here is some recent email dialogue, slightly shortened:
Greening: "I would say that Chandler's slight [sic] of hand is the implied notion that
Newton's 3rd Law is universally applicable, even to a collapsing building."
"I would say that the columns and/or the column connections in the damaged/fireaffected
zone have lost enough of their strength so that the upper block can no longer be
2
fully supported by the weakened columns. Thus the upper block of floors moves
downward relative to the base of the tower. Is this such an outlandish proposition?"
downward relative to the base of the tower. Is this such an outlandish proposition?"
Chandler: "Yes, if you think it can avoid Newton's laws in the process."
Greening: "Well, here's my reply: David, you cannot deny that an upper block of floors
moved downward relative to the base of the tower."
Chandler: "I never denied that. Anyone with eyes can see that is true."
Greening: "And yet you consider this to be an outlandish proposition!"
Chandler: "Only if it does so in such a way as to violate the laws of physics (aka
Newton's Laws of Motion). Moving downward [at constant acceleration] through prepulverized
rubble is no problem. Moving downward without deceleration while
crushing columns designed to support several times the weight...now that's a problem
[as it would violate Newton's third law]."
Greening: "It looks to me like you are the one having trouble explaining what was
actually observed that day! I think you need to get out of your classroom more often and
take a look at real world problems. . . . these phenomena are what need to be discussed
and evaluated, not your classroom physics.
Chandler: "[Classroom physics] aka correct physics."
Greening: "Newton's 3rd Law applies to bouncing billiard balls, not the interiors of
collapsing buildings ........"

Chandler: "Someone should sue your professors for malpractice."
Content from External Source

I agree with the bolded statement there, as would Newton. I've had this discussion with lee.

http://en.wikipedia.org/wiki/Newton's_laws_of_motion
In their original form, Newton's laws of motion are not adequate to characterize the motion of rigid bodies and deformable bodies. Leonard Euler in 1750 introduced a generalization of Newton's laws of motion for rigid bodies called the Euler's laws of motion, later applied as well for deformable bodies assumed as a continuum.
Content from External Source
Greening is entirely correct.
 
From the same pdf, it is noted that Greening co authored with Bazant and they are both suspected of deliberate mis representation.

One remembers that Bazant was the leading author of the first paper to come out after
9/11. This paper provided a collapse theory based on the assumption that the top portion
of the building fell as a solid block, a notion which was later adopted by NIST. The
paper was immediately suspect as it came out just two days after 9/11, an unheard of
feat for a scientific paper. There is good reason to be suspicious of the Bazant paper
because it is obvious from the videos that the top portion of the building was the first
part to disintegrate and thus did not fall as a solid block and therefore cannot have had
the impact energy that Bazant calculated, and NIST relied upon,
Content from External Source
 
From the same pdf, it is noted that Greening co authored with Bazant and they are both suspected of deliberate mis representation.

One remembers that Bazant was the leading author of the first paper to come out after
9/11. This paper provided a collapse theory based on the assumption that the top portion
of the building fell as a solid block, a notion which was later adopted by NIST. The
paper was immediately suspect as it came out just two days after 9/11, an unheard of
feat for a scientific paper. There is good reason to be suspicious of the Bazant paper
because it is obvious from the videos that the top portion of the building was the first
part to disintegrate and thus did not fall as a solid block and therefore cannot have had
the impact energy that Bazant calculated, and NIST relied upon,
Content from External Source
Oxy . . . What is the source for the above quote . . . rather interesting if accurate !!!!
 
Bazant did publish a paper on 9/14/2001, which was expanded by 9/22 to this:

http://www-math.mit.edu/~bazant/WTC/WTC-asce.pdf

9/13/01, Expanded 9/22/01, Appendices 9/28/01

Why Did the World Trade Center Collapse?—Simple
Analysis

Abstract: This paper presents a simplified approximate analysis of the overall collapse of
the towers of World Trade Center in New York on September 11, 2001. The analysis shows
that if prolonged heating caused the majority of columns of a single floor to lose their load
carrying capacity, the whole tower was doomed. The structural resistance is found to be an
order of magnitude less than necessary for survival, even though the most optimistic simplifying
assumptions are introduced.
Content from External Source
It's a shame that speed of response is often taken as evidence of conspiracy. I'm often accused myself of replying too fast, or having all the answers. Bazant took 11 days to create the above paper. That seems like plenty of time for an expert in the field to create a reasonable hypothesis with rough estimates.

Remember plenty of people understood roughly why the towers fell immediately after they fell. Some people even predicted the collapse ahead of time.

It's also worth noting that people are often accused to taking too long to produce an explanation. Perhaps there's a sweet spot, a time at which explanation will not be suspicious.
 
Bazant did publish a paper on 9/14/2001, which was expanded by 9/22 to this:

http://www-math.mit.edu/~bazant/WTC/WTC-asce.pdf

9/13/01, Expanded 9/22/01, Appendices 9/28/01

Why Did the World Trade Center Collapse?—Simple
Analysis

Abstract: This paper presents a simplified approximate analysis of the overall collapse of
the towers of World Trade Center in New York on September 11, 2001. The analysis shows
that if prolonged heating caused the majority of columns of a single floor to lose their load
carrying capacity, the whole tower was doomed. The structural resistance is found to be an
order of magnitude less than necessary for survival, even though the most optimistic simplifying
assumptions are introduced.
Content from External Source
It's a shame that speed of response is often taken as evidence of conspiracy. I'm often accused myself of replying too fast, or having all the answers. Bazant took 11 days to create the above paper. That seems like plenty of time for an expert in the field to create a reasonable hypothesis with rough estimates.

Remember plenty of people understood roughly why the towers fell immediately after they fell. Some people even predicted the collapse ahead of time.

It's also worth noting that people are often accused to taking too long to produce an explanation. Perhaps there's a sweet spot, a time at which explanation will not be suspicious.
Thanks for the info . . . at least it verifies the time window . . . I am not as suspect of the collapse as much as the speed of failure and the speed of collapse . . . as well as, of course, we have two methods of failure on the same day . . . unprecedented simply unprecedented . . .
 


You want the middle bits a bit fatter?


No. I want you to be honest with yourself and everyone else. You've based your graphic on the most unrepresentative image of a tower you could possibly hope to find. Why would you want to do that? And who said the camera never lies?



One of the biggest criticisms from detractors of the towers' design was the small proportion of glass to steel/al cladding.

See that ^^^^? It's all steel - as you well know. Why do you use an image and a graphic which does not represent the reality of the object it depicts? You want to present it as a hollow glass tube, all the better to support what you believe - but again, the Emperor is in the altogether, in his birthday suit, stark bollock naked. You've made attempts before to characterize the towers' facades as 'mostly glass'. They weren't, they were about 60% steel.

Why did you choose that picture and that graphic?

Have you asked your engineer mates about using Verinage on that? Thought you might want to clear that up. The answer will be, No.




Hardly a hollow glass tube, is it? - but if you catch the light just right, you can find an image that makes it look just like how you want it to look.

So, yeah, I reckon you should make a more accurate rendering - and desist from using misleading images because they present better accompaniment to your 'theory'. Why would you do that?
 
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Not personally no but it was envisaged by NIST that professional assessments of buildings should be done and remedial refits carried out as required. If there have been none, that leaves 7 as unique in yet another area.



Not really as we have already established all the wtc's exceeded the codes and look what happened to them... so frankly that does not cut it.

Re the math... there is an argument going on over that.

http://www.journalof911studies.com/volume/2009/FGvsNewton.pdf
Here is some recent email dialogue, slightly shortened:
Greening: "I would say that Chandler's slight [sic] of hand is the implied notion that
Newton's 3rd Law is universally applicable, even to a collapsing building."
"I would say that the columns and/or the column connections in the damaged/fireaffected
zone have lost enough of their strength so that the upper block can no longer be
2
fully supported by the weakened columns. Thus the upper block of floors moves
downward relative to the base of the tower. Is this such an outlandish proposition?"
downward relative to the base of the tower. Is this such an outlandish proposition?"
Chandler: "Yes, if you think it can avoid Newton's laws in the process."
Greening: "Well, here's my reply: David, you cannot deny that an upper block of floors
moved downward relative to the base of the tower."
Chandler: "I never denied that. Anyone with eyes can see that is true."
Greening: "And yet you consider this to be an outlandish proposition!"
Chandler: "Only if it does so in such a way as to violate the laws of physics (aka
Newton's Laws of Motion). Moving downward [at constant acceleration] through prepulverized
rubble is no problem. Moving downward without deceleration while
crushing columns designed to support several times the weight...now that's a problem
[as it would violate Newton's third law]."
Greening: "It looks to me like you are the one having trouble explaining what was
actually observed that day! I think you need to get out of your classroom more often and
take a look at real world problems. . . . these phenomena are what need to be discussed
and evaluated, not your classroom physics.
Chandler: "[Classroom physics] aka correct physics."
Greening: "Newton's 3rd Law applies to bouncing billiard balls, not the interiors of
collapsing buildings ........"

Chandler: "Someone should sue your professors for malpractice."
Content from External Source

All good points.


Greening: "Newton's 3rd Law applies to bouncing billiard balls, not the interiors of
collapsing buildings ........"

That sounds familiar.
 
And still waiting for the example of global 'progressive collapse' of a steel and concrete high rise without the help of explosives.
 
No. I want you to be honest with yourself and everyone else. You've based your graphic on the most unrepresentative image of a tower you could possibly hope to find. Why would you want to do that? And who said the camera never lies?

It's a 2D representation for illustrating the mechanics. would you have me illustrate it as a solid black block?

The building did have long span floors. It has a steel core, and a steel exterior. There is a lot of space between the two, linked by the floor spans. That's a 2D representation.

The image with the sun shining through it has all the structural steel in place. So why is it unrepresentative?

And you know I retracted my "mostly glass" statement about a year ago ( was a bit of a WTC noob back then), so why bring it up again?
 
And still waiting for the example of global 'progressive collapse' of a steel and concrete high rise without the help of explosives.

There are none, as has been said many times. So why keep bring it up? The WTC collapses were obviously unique events. That does not automatically mean they were the result of a conspiracy involving controlled demolition.

Can you give me an example of a building of similar construction hit by a plane with a similar fuel load, which burned on several floor for an hour, and did NOT collapse?

Uniqueness does not equal planned.
 
Lee Harvey Oswald said:


No. I want you to be honest with yourself and everyone else. You've based your graphic on the most unrepresentative image of a tower you could possibly hope to find. Why would you want to do that? And who said the camera never lies?
^^^^^^^^^^^^^
That truly IS bizarre. And very revealing. So a side elevation is "the most unrepresentative image", is it? Would you prefer a plan?
 
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I agree with the bolded statement there, as would Newton. I've had this discussion with lee.

http://en.wikipedia.org/wiki/Newton's_laws_of_motion
In their original form, Newton's laws of motion are not adequate to characterize the motion of rigid bodies and deformable bodies. Leonard Euler in 1750 introduced a generalization of Newton's laws of motion for rigid bodies called the Euler's laws of motion, later applied as well for deformable bodies assumed as a continuum.
Content from External Source
Greening is entirely correct.


No he is not. The key word to look for in description of Newton's laws is idealized.
 
There are none

Can you give me an example of a building of similar construction hit by a plane with a similar fuel load, which burned on several floor for an hour, and did NOT collapse?


None.

Wtc 7 wasn't hit by a plane with any fuel load, but it did collapse - does that count? No. Course not. It's just uniqueness all round, eh?
 
Hollow glass tube under construction, core rising in the middle



That's a very strong looking structure. After all, it has to carry the weight of the entire World Trade Center. Of course the exterior beams you show there are the underground levels and the lobby floor (which actually was "mostly glass" in terms of area, not that that changes anything). Here's a better image you can use showing it more clearly.



Here's a nice photo showing fireproofing being applied to the columns. Where the guy at the top is spraying is the about the top of the exterior in the previous two images. This shows the empty space in the lobby level quite nicely. Of course it's 3-4 times the height of a normal floor, but the open area is the same.


As things get a bit higher though, the skin is a bit less substantial looking. Still incredibly strong, of course. The WTC was a very strong structure, able to withstand the impact and explosion quite well.


Towards the top, thing start to look relatively spindly. Still strong enough for its function of course, but perhaps the photo of the ground levels is not indicative of the strength of the upper floors of the building?
 
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As things get a bit higher though, the skin is a bit less substantial looking. Still incredibly strong, of course. The WTC was a very strong structure, able to withstand the impact and explosion quite well.


Towards the top, thing start to look relatively spindly. Still strong enough for its function of course, but perhaps the photo of the ground levels is not indicative of the strength of the upper floors of the building?

Yes, but the question was, Why did you choose this image? You think a long-exposure photograph looking straight at the sun and bleaching out the structure so it is nearly invisible is a good representation of the reality? Why did you choose this image above all the others?

Originally Posted by Mick





As things get a bit higher though, the skin is a bit less substantial looking

You must have excellent eyesight. And it's not a skin - it's the structural steel perimeter - and it's exactly the same dimensions when formed into box welds as the rest of the building's perimeter columns (apart from the lower levels, ofcourse). The only difference is in the thickness of the steel, which gets thinner as it goes up, obviously. But yes, congratulations on that visual acuity. Shame you couldn't apply it to the above photo as well.


You can't have it both ways. If it's so spindly, then how did it crush the rest of the building you're now bigging up? Or maybe it's the dreaded spindly sledgehammer - they're the worst kind. Look at those titchy little cranes sitting on top - they look a bit spindly to me.
 
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Yes, but the question was, Why did you choose this image? You think a long-exposure photograph looking straight at the sun and bleaching out the structure so it is nearly invisible is a good representation of the reality? Why did you choose this image above all the others?





You must have excellent eyesight. And it's not a skin - it's the structural steel perimeter - and it's exactly the same dimensions when formed into box welds as the rest of the building's perimeter columns (apart from the lower levels, ofcourse). The only difference is in the thickness of the steel, which gets thinner as it goes up, obviously. But yes, congratulations on that visual acuity. Shame you couldn't apply it to the above photo as well.



You can't have it both ways. If it's so spindly, then how did it crush the rest of the building you're now bigging up? Or maybe it's the dreaded spindly sledgehammer - they're the worst kind. Look at those titchy little cranes sitting on top - they look a bit spindly to me.
"the dreaded spindly sledgehammer " . . . that is a great catch phrase Lee . . . !!!
 
I didn't actually choose that image as the basis of my sketch, I was just drawing a rough 2D representation of the internal structure from memory to illustrate a point. That iconic photo happened to match.

The thing is though, physics is not based on adjectives. Regardless of whether it is "spindly" or "solid", the question is if it would fall when a floor failed. That's not really a question we can simply put to our intuition, nor is it a question we can answer based on marveling at photos of incredibly strong girders and rivet plates.

Instead, one has to ask actually how much energy would it take to break the support of all the girders on one floor. Then one has to ask how much energy there is in the falling block over one floor, then one subtracts on from the other, and we see if the falling block could actually break one floor under the most conservative estimates - despite what our intuition tells us, and despite what our experience with smaller structures is.

lee, would you agree that the collapse of a structure can be described in terms of energy expenditure? Potential, kinetic, destructive? That we can describe the energy required to buckle a girder? Multiple girders? We can get a rough estimate of the energy expended to destroy each floor?
 
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