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Re: energy and mass

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Am Mittwoch000025, 25.03.2026 um 12:01 schrieb Bill Sloman:
> On 25/03/2026 6:59 pm, Thomas Heger wrote:
>> Am Montag000023, 23.03.2026 um 12:31 schrieb Bill Sloman:
>>> On 23/03/2026 7:21 pm, Thomas Heger wrote:
>>>> Am Sonntag000022, 22.03.2026 um 12:21 schrieb Bill Sloman:
>>>>
>>>>>>>>>>>> the huge basement was not a compact mess of stone and steel, 
>>>>>>>>>>>> as we would expect, but was almost entirely undamaged.
>>>>>>>>>>>
>>>>>>>>>>> As you might expect if you neglected to think about what had 
>>>>>>>>>>> actually happened.
>>>>>>>>>>
>>>>>>>>>> No, not at all.
>>>>>>>>>>
>>>>>>>>>> I personally thought, that an exotic weapon was used, which 
>>>>>>>>>> could turn large structures of steel and concrete into fine dust.
>>>>>>>>>>
>>>>>>>>>> But I would have doubts about al-quida having such a device.
>>>>>>>>>
>>>>>>>>> Or anybody else.
>>>>>>>>>
>>>>>>>>>>>> That should shock you, since that would mean, that 80 to 90% 
>>>>>>>>>>>> of the original building materials vanished without a trace.
>>>>>>>>>>>
>>>>>>>>>>> Dust clouds are ephemeral. They blow away. They don't have to 
>>>>>>>>>>> blow far away to avoid showing up in the basement. 
>>>>>>>>>>
>>>>>>>>>> Dust blows away, that's true.
>>>>>>>>>>
>>>>>>>>>> But how would you transform a 400m skyscraper into fine dust??
>>>> ...
>>>>>>>>>> It also happened in mid-air, because the fine dust was blown 
>>>>>>>>>> away, before it had reached the ground.
>>>>>>>>>
>>>>>>>>> 400 meters is quite a long way up in the air, and a fierce fire 
>>>>>>>>> generates a lot of air-circulation. 
>>>>>>>>
>>>>>>>> Well, yes 400m is quite a height. But free-falling rubble needs 
>>>>>>>> only a few seconds to pass that distance.
>>>>>
>>>>> 9.032 seconds. It gets up to a speed of 88.57m/sec.
>>>>
>>>> A little wind drag and we get 10 seconds for a piece of rubble to 
>>>> fall down from the roof.
>>>
>>> The bulk of the building was below the roof.
>> Yes, that is actually a true statement and I have no intentions to 
>> reject you claim.
>>
>>>> The speed would also be very high and in the range of 300 km/h.
>>>
>>> Only if it fell all the way from the roof, and if it didn't slowed 
>>> down the air currents feeding oxygen into the fires and replacing the 
>>> hot air rising out of the fire.
>>
>> Sure, but if we take, say, only the highest 10% of the building and 
>> ignore the rest, then we would encounter at least those 10% smashing 
>> upon the ground level with more then 300 km/h.
> 
> https://en.wikipedia.org/wiki/Collapse_of_the_World_Trade_Center
> 
> says it didn't happen that way. When the floor slabs starting falling 
> onto the floor slabs below them, they stated from the top, and each 
> falling slab dissipated most of its kinetic energy in breaking the links 
> between the slab below it and the supporting columns. This only took 
> about a tenth of second for the lower floors, but none of them got to 
> travel at anything like 300km per hour. the supporting columns fell 
> sideways rather an straight down, and some of them j]hit adjacent 
> buildings.
> 
>> This velocity would multiply with an enormous mass of up to 20000 kg 
>> per piece to a gigantic momentum.
> 
> Except that it didn't.
> 
>> And because momentum is a conserved quantity, we need tremendous 
>> amounts of material to stop such a falling piece.
> 
> Momentum is only conserved from interaction  to interaction. When a 
> building fall down over about an hour there are lots of interactions and
> lots of accounting to be done.

Sure, if a comet smashes onto, say, the Moon, then the large momentum of 
the comet falling onto the Moon needs to be stopped somehow by the surface,

You could use several methods, but 'conservation of momentum' has 
advantages, because it would provide intuitive understanding for the 
formation of craters:

The crater is so large, because the missing material inside the crater 
was needed, to balance the momentum of the moving debris.

IoW: the material on the ground got struck by the falling part and 
unless the momentum is transferred to material from the ground, the 
falling piece would continue to move.

That's why the velocity of the material from the ground could become 
very high and the crater very large, until finally the projectile is 
stopped.



>> This material needs to shoot away from a large crater with very high 
>> speed.
> 
> Only if it was travelling really fast when it hit the ground, and it 
> wasn't.

Actually the velocity was more than 300 km/h and I would regard that as 
fast.

We could also encounter 'elastic recoil', which could allow speeds of 
parts or the material on the ground to be faster than the falling debris.


>> But that didn't happen, because the street level of WTC-Plaza wasn't 
>> demaged at all (well a few holes were actually punched into the street 
>> level, but not remotely as much and as large as expected).
> 
> The WTC plaza wasn't actually directly below the Twin Towers.

Well, possibly.

I have never been there and don't know the exact street names. But you 
could gues what I meant:

the surface of the ground level of the entire WTC-complex.

>> So, material objects with a mass larger than 20 to of steel and 
>> concrete 'dustified' in mid air and were blown away.
> 
> They got broken up in a series of smaller collisions, as each floor fell 
> onto the floor below it, and got further broken up by each impact in 
> succession.

That's not how things fall, if they hit something hard below.

If you would drop something breakable from some hight upon something 
breakable, but with high resistance against breaks, you would expect a 
different pattern:

the upper part of a collision would cause breaks in the parts below, but 
also braks of the same kind in itself, because the both parts were 
assumed to have the same strength.

If we concentrate on the upper part only (for a moment), we would expect 
parts of the falling piece to splinter off and fall partly outside of 
the former building shape, hence would fall in free fall outside down to 
the ground.

Doesn't matter that much, what percentage would break of the upper part, 
because at least some parts would do that.

But even at the hight of the actual impact zones, sections of the 
perimeter wall of the twintowers would fall down with enormous mass and 
velocity.

IoW: possibly you were right and not that many 'cannon balls' or 'fright 
trains' would have hit the ground, but certainly some.

But apparently this didn't happen, because every single of those 
sections of the perimeter walls would have pierced through the street 
level like a hot knife though butter.

In this didn't happen, because the street level was mainly intact.

You could easily see that, if you look at any pictures of the aftermath 
of 9/11, which show the remains of the twin-towers.

E.g. you can see, if you look carefully, remains of fire-trucks and 
other cars in the rubble, which remained astonishingly undamaged. For 
instance some had still unbroken windows.

This wouldn't be possible, if a just screw-driver would fall from that 
hight, let alone sections of the perimeter wall, weighing more then  20 
tons.
...

TH

> 

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Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-18 09:11 +0100
  Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-18 21:28 +1100
    Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-19 12:10 +0100
      Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-20 01:35 +1100
        Re: energy and mass Ross Finlayson <ross.a.finlayson@gmail.com> - 2026-03-19 07:44 -0700
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            Re: energy and mass Ross Finlayson <ross.a.finlayson@gmail.com> - 2026-03-20 09:42 -0700
              Re: energy and mass Ross Finlayson <ross.a.finlayson@gmail.com> - 2026-03-20 09:58 -0700
                Re: energy and mass Ross Finlayson <ross.a.finlayson@gmail.com> - 2026-03-20 10:28 -0700
        Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-20 11:00 +0100
          Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-21 02:54 +1100
            Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-22 10:31 +0100
              Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-22 22:21 +1100
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-23 09:21 +0100
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-23 22:31 +1100
                Re: energy and mass Ross Finlayson <ross.a.finlayson@gmail.com> - 2026-03-23 08:11 -0700
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-25 09:02 +0100
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                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-27 08:54 +0100
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-28 02:51 +1100
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-29 09:56 +0200
                Re: energy and mass Daren Remond <ndno@dmrndd.us> - 2026-03-29 13:04 +0000
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-30 08:33 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-30 01:32 +1100
                Re: energy and mass Ross Finlayson <ross.a.finlayson@gmail.com> - 2026-03-29 07:39 -0700
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                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-30 18:15 +1100
                Re: energy and mass Maciej Woźniak <mlwozniak@wp.pl> - 2026-03-30 10:17 +0200
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-31 09:13 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-31 22:46 +1100
                Re: energy and mass Maciej Woźniak <mlwozniak@wp.pl> - 2026-03-31 13:57 +0200
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-25 08:59 +0100
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-25 22:01 +1100
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-26 15:00 +0100
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-27 02:47 +1100
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-27 09:13 +0100
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-28 03:17 +1100
                Re: energy and mass Ross Finlayson <ross.a.finlayson@gmail.com> - 2026-03-27 10:39 -0700
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-29 10:19 +0200
                Re: energy and mass Cloro Sandiford <iofnd@dosc.us> - 2026-03-29 13:01 +0000
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-30 08:31 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-31 02:45 +1100
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-03-31 09:39 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-03-31 23:10 +1100
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-04-01 09:47 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-04-02 02:34 +1100
                Re: energy and mass Maciej Woźniak <mlwozniak@wp.pl> - 2026-04-01 18:23 +0200
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-04-03 10:12 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-04-03 23:42 +1100
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-04-05 09:57 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-04-06 02:53 +1000
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-04-06 13:09 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-04-07 04:11 +1000
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-04-08 09:13 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-04-08 22:56 +1000
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-04-03 10:31 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-04-04 03:16 +1100
                Re: energy and mass The Starmaker <starmaker@ix.netcom.com> - 2026-04-03 09:38 -0700
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-04-04 04:15 +1100
                Re: energy and mass The Starmaker <starmaker@ix.netcom.com> - 2026-04-03 23:18 -0700
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-04-04 21:37 +1100
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-04-05 10:14 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-04-05 20:58 +1000
                Re: energy and mass Thomas Heger <ttt_heg@web.de> - 2026-04-06 12:51 +0200
                Re: energy and mass Bill Sloman <bill.sloman@ieee.org> - 2026-04-07 04:27 +1000
      Re: energy and mass The Starmaker <starmaker@ix.netcom.com> - 2026-03-19 11:17 -0700

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