9/11 Physics from Non-Experts

[Augustine]

Would 4.75" average thickness for the concrete satisfy you?

What would satisfy me is if you were up front as to what you are trying to get out of this. Every calculation has a context, every calculation is required for a reason. It is no secret you have a preconceived agenda. You misrepresent your work in comparison with others. It would be so easy to talk to Robert Fowler or Les Robertson, but you have not. You fail to comprehend the fact that nothing you have mentioned changes the facts of the collapse at all. What next, stubby-penciling the weight of the 767s using actual number of passengers and estimates of their carry-on weight? I just see this as being little more than "OMG they lied about the weight of the towers OMG Conspiracy it's all lies!!!111!!" - more pap for the twoofers.

 

[Minadin]

Sorted. Terminology difference. In the UK the thickness of the decking would be the actual steel, and the depth of trough or profile would be the overall size.

Not really. I would call it a 22-gauge steel deck with 1 1/2" profile. I would probably have to call out a profile # as well, to make sure that the contractor ordered and installed the right thing.

 

[GregoryUrich]

What would satisfy me is if you were up front as to what you are trying to get out of this. Every calculation has a context, every calculation is required for a reason. It is no secret you have a preconceived agenda. You misrepresent your work in comparison with others. It would be so easy to talk to Robert Fowler or Les Robertson, but you have not. You fail to comprehend the fact that nothing you have mentioned changes the facts of the collapse at all. What next, stubby-penciling the weight of the 767s using actual number of passengers and estimates of their carry-on weight? I just see this as being little more than "OMG they lied about the weight of the towers OMG Conspiracy it's all lies!!!111!!" - more pap for the twoofers.

I have previously stated my motive in doing this work. I will repeat it here unless someone has missed it. I've seen work by the twoofers that doesn't hold up, but Bazant doesn't hold up either. I have not made up my mind yet about controlled demolition but video taped eyewitness testimony of explosions (not Dan Rather) is pretty convincing. Believe me, I would rather be fighting against a rag tag bunch of fanatics on a shoe string budget than well funded, well organized elements embedded within the government and military. We know Bush, Rumsfeld and Rice lied about foreknowledge. The PDB and news articles all over the world attest to this. Of course we can't say how much they knew. But I digress.

This work is to support better collapse time analysis. I am not satisfied with the work published at the Journal of Woo and in fact today I demanded a retraction of Ken Kuttler's WCT7 article.

My agenda will be based on the outcome of better collapse time analyses. If I find that the collapse times pretty much fit in with the official explanation, I will gladly go back to spending my freetime on more enjoyable things. If my result does not fit in with the official explanation, I will have more work to do. If my results are convincing, we all will have important work to do.

You say I misrepresent my work in comparison with others. How so?

 

[pomeroo]

I have previously stated my motive in doing this work. I will repeat it here unless someone has missed it. I've seen work by the twoofers that doesn't hold up, but Bazant doesn't hold up either.

I have not made up my mind yet about controlled demolition but video taped eyewitness testimony of explosions (not Dan Rather) is pretty convincing.

Forgive my presumption, but you have, in fact, made up your mind and you are a fantasist. The eyewitness testimony is convincing and it strongly indicates that there were no explosives used at the WTC. You might try actually reading it.

Believe me, I would rather be fighting against a rag tag bunch of fanatics on a shoe string budget than well funded, well organized elements embedded within the government and military.

Your imaginary conspiracy is impossible. You choose to pass over that irrefutable point.

We know Bush, Rumsfeld and Rice lied about foreknowledge.

Standard fantasist drivel. Rationalists don't know anything of the sort. They tend to believe that the thousands of vague warnings received by intelligence services all over the world were not conducive to specific actions that could have prevented the attacks.

The PDB and news articles all over the world attest to this. Of course we can't say how much they knew. But I digress.

No, the PDB and news articles do nothing of the sort--obviously. We can say that they didn't know enough to prevent the jihadist attacks.

This work is to support better collapse time analysis. I am not satisfied with the work published at the Journal of Woo and in fact today I demanded a retraction of Ken Kuttler's WCT7 article.

This work is a disingenuous and transparent effort to lend credibility to a nonsensical thesis.

My agenda will be based on the outcome of better collapse time analyses. If I find that the collapse times pretty much fit in with the official explanation, I will gladly go back to spending my freetime on more enjoyable things. If my result does not fit in with the official explanation, I will have more work to do. If my results are convincing, we all will have important work to do.

Why do I have a hunch that your "work" will end up support the tinfoil-hat lunacy?

You say I misrepresent my work in comparison with others. How so?

You attempt to create a veneer of rationality, but your motives are unmistakable.

 

[Myriad]

Since everyone has acknowledged that there is a lot of guesswork in all of these estimates, and since I've been disambiguated by everyone's thoughtful answers to my questions a few pages back, I feel I can put my two cents in.

In the midst of all the uncertainty, one point strikes me as potentially telling:

Given the enormous real safety factor that would result if the design load was so heavily padded, the fact that surveys were regularly carried out to make sure the Towers weren't overloaded, and the Towers were occasionally modified in places to accomodate heavier loads, I believe the actual load was much higher, perhaps 75% or more of the design load.

The reason it seems that way, to me, is that the types of businesses in the World Trade Center clustered around certain norms. I think it's a safe bet that the tenants who needed modifications for heavier loads weren't cannon foundries or brickmaking kilns or indoor aquaculture farms. If they neeeded higher load capacity it was most likely for server farms or paper, especially the latter. (Server farms are more constrained than paper files in load density, due to their cooling requirements.)

We can talk about the weight of desks and chairs, but the weight per desk and the approximate desks-to-employees ratios aren't going to deviate much from one business to another. No business is going to have 1/10 as many chairs, or 10 times as many chairs, as employees. (Movie theaters excepted.) But an estimate of the load of paper files for a given business could easily range over many orders of magnitude. So, it would be hard to disprove that the typical business in the towers had more than one rack of servers and one small file cabinet per employee without knowing private details of how those businesses were conducted. But the fact that some of them needed greater capacity strongly suggests that most of them trended similarly toward the heavy side.

Unless, of course, it can be shown that the tenants that required increased loads had special kinds of business needs compared with the other tenants, rather than just being the upper extremes of the same bell curve. If Mr. Urich can point to cases where tenants required extra capacity for reasons that would be unlikely to apply to other tenants, his case for a low mean live load would be stronger. Contrariwise, if anyone else can show that the tenants requiring higher loads needed them primarily for files, servers, or other needs that other tenants would be under similar business pressures to accumulate toward the point of exploiting the full design load, the case for a higher live load would be strengthened.

This whole question of total tower mass might not be relevant for understanding the collapse, but important aspects of it could be very relevant to fire models. The fuel load derives mostly from the live load outside the core. The difference between a live load 25% of design load, and a live load 75% of design load, could be very significant in addressing such questions as whether or not the fuel was actually exhausted in the zones where visible flames were observed to abate, how the fire might have developed over time had the towers not collapsed, and what parameters to use in modeling the post-collapse rubble pile fires. Dr. Greening's work would certainly benefit from more accurate figures here.

Respectfully,
Myriad

 

[DavidJames]

For those unsure of where he stands, these quotes seem to make it pretty clear:

I would rather that the enemy of freedom and democracy was a loose gang of terrorists rather than the highly organized and infinitely funded PNAC block, but I suspect the latter.

How do you guys account for the energy required to pulverize the concrete?

Right, FBI agents. You must mean the ones who let all evidence from a crime scene be destroyed before a legitimate investigation was done.

Regarding a video from PFT

I don't claim the film is valid as I know very little about the material produced by the NTSB. For the record, I have never claimed "no AA 77 (Boeing 757)" at the Pentagon.

I'm not completely ignorant regarding flying as my father was an instructor and my sister an airline pilot. As they say, a little knowledge is dangerous so for me the film is pretty convincing.

 

[Augustine]

I have previously stated my motive in doing this work. I will repeat it here unless someone has missed it. I've seen work by the twoofers that doesn't hold up, but Bazant doesn't hold up either. I have not made up my mind yet about controlled demolition but video taped eyewitness testimony of explosions (not Dan Rather) is pretty convincing. Believe me, I would rather be fighting against a rag tag bunch of fanatics on a shoe string budget than well funded, well organized elements embedded within the government and military. We know Bush, Rumsfeld and Rice lied about foreknowledge. The PDB and news articles all over the world attest to this. Of course we can't say how much they knew. But I digress.

This work is to support better collapse time analysis. I am not satisfied with the work published at the Journal of Woo and in fact today I demanded a retraction of Ken Kuttler's WCT7 article.

My agenda will be based on the outcome of better collapse time analyses. If I find that the collapse times pretty much fit in with the official explanation, I will gladly go back to spending my freetime on more enjoyable things. If my result does not fit in with the official explanation, I will have more work to do. If my results are convincing, we all will have important work to do.

You say I misrepresent my work in comparison with others. How so?

As I have stated previously, you have claimed that various other works have "overestimated" the weight of WTC 1 and 2. However, as I have pointed out, the 500,000 ton figure most likely originated from a statement by one of the original design engineers, Robert Fowler, as the magnitude of the gravity loads at the base of the towers. You are claiming this is an overestimation of what you are calculating, which is an instantaneous weight of the WTC on the morning of September 11, which involves sustained and transient live loads. You are comparing apples and oranges attempting to discredit others, and it is disingenuous, intellectually dishonest, or (possibly) you simply do not understand the difference. I do not think you have read or understood Bazant in the slightest. You freely admit in your letter that your PE values came out in line with FEMA's, but now you claim the difference in mass should reduce the PE values.

But....let's get into the MEAT...how EXACTLY does Bazant "not hold up"? Please list your criticisms, concisely and coherently, and feel free to be as intellectually rigorous as you are able....

 

[Newtons Bit]

First rule of thumb is only camber for 3/4 of the dead load deflection. Trying to balance it precisely will leave your floor looking like rolling hills...can't get the damn beams to go down!

Or it will leave your headed anchor studs sticking up out of the concrete. That's a fun one to try and explain to the owner.

Vulcraft has it's steel deck catalog online for those who want to see what they really look like. http://www.vulcraft.com/downlds/catalogs/deckcat.pdf

 

[Apollo20]

Skyscraper comparisons based on building mass divided by building volume:

The Empire State Building: 348 kg/m^3

Sears Tower Chicago: 218 kg/m^3

John Hancock Center: 166 kg/m^3

Taipei 101: 347 kg/m^3

Woolworth Building: 460 kg/m^3

WTC: M (kg)/1,680,000 m^3.

 

[R.Mackey]

Several responses in one!

Can you provide a page number for the NCSTAR1-1 ref?

Indeed I can, although I'm afraid it's from NIST NCSTAR1-1A -- I mistyped. Sorry if you looked and couldn't find it. The reference to 55psf SDL outside core, and 75psf SDL inside core for the mechanical floors is found in the original design documents, Figure 2-4, page 12 of NIST NCSTAR1-1A.

Also, if you prefer, there is a more detailed accounting in Table 6-6 of NIST NCSTAR1-2A on page 141.

NCSTAR1-2A diagram 1-4 provided by NIST as "Typical Floor Truss Framing Zones" is in fact atypical regarding empty space and most likely from around the 100th floor.

I believe it's the 96th floor, chosen as their "typical" truss floor for purposes of WTC 1 analysis. In any case, even at maximum the open space in the core will be about double what we see here, so there is considerable floor space in the core, and thus considerable SDL.

There are some slight contradictions in the NIST report (and, indeed, in the design documents), but whichever SDL figures you prefer, I trust you'll agree that your current core SDL estimate of zero requires some attention.

Do you, Mr. Mackey agree that corridors, restrooms, and eating areas have essentially no live load averaged over time. The only loads in these areas are of short duration or moving (i.e persons). Most persons spend their time in the working areas and we can account for them there.

By the way, I really appreciate your (Mr. Mackey's) focus on the issues rather than casting aspersions.

I don't agree because I'm not convinced all of those live loads are people. Things like catering carts, janitorial supplies, garbage cans, supply storage, etc. would all count against the live load, and would be there more or less around the clock. Regardless, time-averaging is also going to be too crude.

I do try to stay above the insults, particularly when other participants do the same. I am a professional scientist, after all.

Regarding the impacts I quote Gregg Roberts:

"[...] Skilling says, and the Port Authority and NIST agreed,(ref 10) that they were designed to survive a 600 mph impact by a 707."

[...]
The important reference is ref 10 = NISTNCSTAR1 pg. 6. This reference alone is a clear refutation of your claims above. Regarding this point, I respectfully request that if you don't agree, you take it up with NIST, not with me.

While I'm pulling up NIST quotes, let's turn to NIST NCSTAR1, the master report. On page 6 is this passage:

An additional load, stated by The Port Authority to have been considered in the design of the towers, was the impact of a Boeing 707, the largest commercial airliner when the towers were designed, hitting the building at its full speed of 600 mph.

Just because the load was "considered" doesn't mean that it definitely fell within the structure's design envelope.

Furthermore, Gregg Roberts conspicuously avoids NIST's more detailed comments on the "600 MPH issue," found in Section 5.3.2, pg. 55:

The accidental 1945 collision of a B-25 bomber with the Empire State Building sensitized designers of high-rise buildings to the potential hazards of such an event. However, building codes did not then, and do not currently, require that a building withstand the impact of a fuel-laden commercial jetliner. A Port Authority document indicated that the impact of a Boeing 707 aircraft flying at 600 mph was analyzed during the design stage of the WTC towers. However, the investigators were unable to locate any documentation of the criteria and method used in the impact analysis and were thus unable to verify the assertion that “…such collision would result in only local damage which could not cause collapse or substantial damage to the building and would not endanger the lives and safety of occupants not in the immediate area of impact.”⁸ Since the ability for rigorous simulation of the aircraft impact and of the ensuing fires are recent developments and since the approach to structural modeling was developed for this Investigation, the technical capability available to The Port Authority and its consultants and contractors to perform such an analysis in the 1960s would have been quite limited.

I believe you'll find that the NIST's statements, when presented accurately and in context, are wholly consistent with my comments expressed here.

Oh, and regarding concrete, there is an additional contribution -- the beam-framed floors contained additional concrete around the beams themselves. However, this will probably not be significant against the total, and thus I expect to find well over half the total concrete in the foundatoin.

 

[rwguinn]

Skyscraper comparisons based on building mass divided by building volume:

The Empire State Building: 348 kg/m^3

Sears Tower Chicago: 218 kg/m^3

John Hancock Center: 166 kg/m^3

Taipei 101: 347 kg/m^3

Woolworth Building: 460 kg/m^3

WTC: M (kg)/1,680,000 m^3.

you want ot edit that, Dr. G?
I hope that's a typo? kg/1.68e6 m^3? that sucker would float off, wouldn't it?
AHA! maybe that's what really happened!
Down is up, black is white! NWO strikes again

 

[AZCat]

you want ot edit that, Dr. G?
I hope that's a typo? kg/1.68e6 m^3? that sucker would float off, wouldn't it?
AHA! maybe that's what really happened!
Down is up, black is white! NWO strikes again

You missed the "M" at the beginning. Dr. Greening is using a variable for the mass - one that he has referenced earlier.

 

[beachnut]

Skilling, the Port Authority and NIST agree it's a fact. See NISTNCSTAR1 pg. 6. It couldn't be any clearer!

What do you mean; it said not a single fact or piece of evidence, and proves the 600 mph wrong by a quick energy analysis. Are you really an engineer? Did you know that is the most ridiculous claim there is? You know why? People who make the 600 mph claim have no idea what they are talking about. It just makes truther look dumb. NIST does not say the building would take an impact from a high speed jet. In fact, the NIST study, and the study anyone can do using energy of impact can prove this 600 mph impact as false. And an engineer should be able to prove this 600 mph statement false on a napkin. I have proof from the real designer on the WTC that a slow speed impact, with low fuel, lost in the fog impact was studied. And it is that study that fits the NIST statement someone remembered all those years ago.

from a NIST source "… such collision would result in only local damage which could not cause collapse or substantial damage to the building and would not endanger the lives and safety of occupants not in the immediate area of impact. "

The original structural engineering Leslie E. Robertson design for an aircraft impact, but it was a slow speed landing configuration, less energy at impact than the 9/11 impacts!
Yes the slow speed impact that was in the design would have resulted in just local damage, not extensive damage to the core and a complete destruction of the exterior columns. The impacts on 9/11 were 7 to 11 times greater than the design impact.

Leslie E. Robertson, , said:
"The twin towers of the World Trade Center were designed to resist safely the impacting by the largest aircraft of that time...the intercontinental version of the Boeing 707. In no small measure because of the high level of competence of the men and women of LERA, each of the towers resisted the impact of an aircraft larger than the 707. Yes, fire brought down the towers, but the structural integrity created by the engineers of LERA allowed perhaps thousands of persons to evacuate the buildings prior to the fire-induced collapse." http://www.engr.psu.edu/ae/WTC/LesRobertson.html

Leslie E. Robertson, , said: on being hit by a commercial jet -
" It appears that about 25,000 people safely exited the buildings, almost all of them from below the impact floors; almost everyone above the impact floors perished, either from the impact and fire or from the subsequent collapse. The structures of the buildings were heroic in some ways but less so in others. The buildings survived the impact of the Boeing 767 aircraft, an impact very much greater than had been contemplated in our design (a slow-flying Boeing 707 lost in the fog and seeking a landing field). Therefore, the robustness of the towers was exemplary. At the same time, the fires raging in the inner reaches of the buildings undermined their strength. In time, the unimaginable happened . . . wounded by the impact of the aircraft and bleeding from the fires, both of the towers of the World Trade Center collapsed."

http://www.nae.edu/nae/bridgecom.nsf/weblinks/CGOZ-58NLCB?OpenDocument

This is not NIST, this is the real designer. A fact you could find if you wanted instead of repeating statments that you can prove wrong yourself.


Explain to me how a 707 can do 600 mph at sea level? Please give us the top speed of a 707 at 1000 feet MSL? Under what conditions would a 707 be doing 600 mph? Please include altitude and airspeed for KIAS, KCAS, or KEAS. Take your pick. JAQ but then I will JAQ too.

Just Answering Questions too; The 707 top speed at 1000 feet MSL is 355 KCAS. The top speed for all aicraft below 10,000 feet is 250 KIAS by regulation. The most likely speed for an aircraft lost in the fog trying to land would be 180 mph. The design parameters for an aircraft impact. There are more reasons why a landing aircraft is the most likely impact with a building, base on an airliner doing the deed. But pilot stuff is boring.

Review!: Leslie E. Robertson says low speed impact. Not 600 mph. Questions?

 

[Minadin]

Article by Robertson:
http://www.nae.edu/nae/bridgecom.nsf/weblinks/NAEW-63AS9S/$FILE/Bridge-v32n1.pdf?OpenElement

Notable Quotes:

The two towers were the first structures outside of the
military and nuclear industries designed to resist the
impact of a jet airliner, the Boeing 707. It was assumed
that the jetliner would be lost in the fog, seeking to land
at JFK or at Newark. To the best of our knowledge, little
was known about the effects of a fire from such an aircraft,
and no designs were prepared for that circumstance.
Indeed, at that time, no fireproofing systems were
available to control the effects of such fires.



These charts demonstrate conclusively that we should
not and cannot design buildings and structures to resist the
impact of these aircraft. Instead, we must concentrate
our efforts on keeping aircraft away from our tall buildings,
sports stadiums, symbolic buildings, atomic plants,
and other potential targets.

ETA: Well, text here:
http://www.nae.edu/nae/bridgecom.ns...D8D5CBB9FC33B60C85257111006F3DCA?OpenDocument

 

[GregoryUrich]

As I have stated previously, you have claimed that various other works have "overestimated" the weight of WTC 1 and 2. However, as I have pointed out, the 500,000 ton figure most likely originated from a statement by one of the original design engineers, Robert Fowler, as the magnitude of the gravity loads at the base of the towers. You are claiming this is an overestimation of what you are calculating, which is an instantaneous weight of the WTC on the morning of September 11, which involves sustained and transient live loads. You are comparing apples and oranges attempting to discredit others, and it is disingenuous, intellectually dishonest, or (possibly) you simply do not understand the difference. I do not think you have read or understood Bazant in the slightest. You freely admit in your letter that your PE values came out in line with FEMA's, but now you claim the difference in mass should reduce the PE values.

But....let's get into the MEAT...how EXACTLY does Bazant "not hold up"? Please list your criticisms, concisely and coherently, and feel free to be as intellectually rigorous as you are able....

How do you reconcile FEMA's PE with a mass of 500,000 tons? The only way you can do it is by putting 260,000 tons in the basement. If you spread the SDL and live load portion over all the floors in the basement you get more than 1200 psf on floors designed for 500 psf.

Either FEMA is wrong or the 500,000 ton value is wrong. I think that is motivation enough for my work and it is one of the first things that got me interested in this issue.

Can we deal with this and come back to Bazant?

 

[GregoryUrich]

Sanity check

Skyscraper comparisons based on building mass divided by building volume:

The Empire State Building: 348 kg/m^3

Sears Tower Chicago: 218 kg/m^3

John Hancock Center: 166 kg/m^3

Taipei 101: 347 kg/m^3

Woolworth Building: 460 kg/m^3

WTC: M (kg)/1,680,000 m^3.

Skyscraper comparison based on building mass divided by floor area:

Here it appears that my value fits in better with other building for the same era.

 

[gumboot]

This whole question of total tower mass might not be relevant for understanding the collapse, but important aspects of it could be very relevant to fire models. The fuel load derives mostly from the live load outside the core. The difference between a live load 25% of design load, and a live load 75% of design load, could be very significant in addressing such questions as whether or not the fuel was actually exhausted in the zones where visible flames were observed to abate, how the fire might have developed over time had the towers not collapsed, and what parameters to use in modeling the post-collapse rubble pile fires. Dr. Greening's work would certainly benefit from more accurate figures here.

I believe one of the things NIST actually did was calculate the fuel load per square foot in the towers. They didn't include things like paper inside cabinets, as they determined these would not catch on fire. However, given the temperature of the air on engulfed floors, I think it's possible the paper would have reached spontaneous combustion levels.

-Gumboot

 

[Augustine]

How do you reconcile FEMA's PE with a mass of 500,000 tons? The only way you can do it is by putting 260,000 tons in the basement. If you spread the SDL and live load portion over all the floors in the basement you get more than 1200 psf on floors designed for 500 psf.

Either FEMA is wrong or the 500,000 ton value is wrong. I think that is motivation enough for my work and it is one of the first things that got me interested in this issue.

Can we deal with this and come back to Bazant?

You are acting as if the mass of a tower is a constant quantity; it is not. Mass may be represented as DL + f*LL, where f may be any percentage between 0 and 100% (theoretically). FEMA is basing its PE calculations on DL + 0.25*LL (Congratulations! You have independently validated FEMA's results!), which is typical because PE calculations are typically done in collapse cases, and D + 0.25 LL is the load case used in conjunction with extreme events (hurricane, earthquake, blast) which considers the low probability of an extreme event and can use a low percentage of live load accordingly (assuming that f follows some bell curve distribution centered around some percentage, the 25% may be assumed to fall on the left of the bell curve). (Generally, engineers have taken office loads as 25% sustained, 75% transient (for creep calculations, among others), this is no magic number however. We can argue all day long as to whether it should be 22%, 30%, 35%, etc...) The 500,000 ton figure, which as I have said several times now originated from a statement by Robert Fowler, one of the original engineers doing the "grunt work" tower calculations, is NOT a D + 0.25 LL, it is D + Lr*LL, where Lr is some live load reduction factor (see previous posts). Lr does not apply to all live loads, Lr is NOT less than 0.4. This is what I am talking about comparing apples and oranges; you are comparing two different load cases and arguing one is wrong because it is not something it was never intended to be. This is where you are in over your head as far as comprehension.

This is what I do not get about twoofers. Instead of running their numbers by people who could give them quick, easy answers (Ron Hamburger, Robert Fowler, Leslie Robertson), they talk to each other in an echo chamber of BS, or go onto an internet message board and argue with other people.

(PS I have zero confidence in your basement numbers, which do not affect the PE of the tower at all. Your floor loads, as I have said, for the D+0.25LL case, match up closely with NIST's and your PE matches up with FEMA. Your strawman, however, that 500,000 tons represents a D + 0.25*LL case, is wrong, and I would not be surprised to find that you are substantially underestimating the DL of the basement, as well as the LL.)

OKAY, now what EXACTLY is your criticism of Dr. Bazant's work?

 

[rwguinn]

You missed the "M" at the beginning. Dr. Greening is using a variable for the mass - one that he has referenced earlier.

You are correct. My apologies. I just figured Apollo20 was as thumb-fingered as the rest of us...
Anyone here never made a mistake typing? Raise your hands...

 

[Apollo20]

rwguinn:

I left M, the mass of a WTC Tower, as a variable since this has become the topic of this thread. You can substitute the high or low value of M and see what makes the most sense, 298 kg/m^3 or 151 kg/m^3.

Interestingly the WTC was claimed to involve lightweight construction and yet the John Hancock Center appears to be the most lightweight of the exampes I qoted, unless you support Gregory Urich's mass....

And by the way, on the point Mackey raised about whether or not the mass of the basement should be included in calculations of the mass of a tower, my guess would be "yes" since the lower six sub-floors that made up the basement appear to have largely collapsed and thus contributed to the potential energy release.