Alferd_Packer
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Better yet, dump 7.9 million gallons of water (29.9 million liters or approximately 12 olympic sized swiming pools) on your house. Water is as non-rigid as you can get.
Better yet, dump 7.9 million gallons of water (29.9 million liters or approximately 12 olympic sized swiming pools) on your house. Water is as non-rigid as you can get.
cloudshipsrule
Graduate Poster
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Should just pour over the sides, no?
Newtons Bit
Penultimate Amazing
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DGM
Skeptic not Atheist
Your bad!!!!!!!
I did get soaked once by a fire plane water drop and thought I was going to die. It doesn't look like much in the videos but when it hits you for real it sucks.
X
Slide Rulez 4 Life
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I think what Heiwa is overlooking (and Apollo20 too, if he's serious), is that impact is a function of velocity and time together.
Heiwa seems to assume that if the upper block is not "solid", it must be macroscopically fluid, and thus would behave the same as water in stream, and break around the object.
At lower flow rates, you have a small mass of water impacting over a relatively long time, which allows the water to flow around the object.
At higher velocities (like, say, the deluge from a water bomber), the mass of water is huge, and it impacts over a very short time. It packs a helluva punch.
The same thing would happen with a large mass of rubble (rubble for Heiwa's fluid upper block). A lot of rubble (whatever consistency you want) impacting over a short time (and in a small area, since most of the mass is vertical, not spread out horizontally), will impact with a force not appreciably less than if it were rigid.
F = m(dv/dt)
F = impact force
m = mass
dv = change in velocity
dt = change in time
so, if m = 33,00 tons ~ 30x106 kg
dv = vinitial - vfinal, which I shall arbitrarily (since I don't know the speed at which the upper block fell) set to a conservative to dv = 5 m/s
dt = time of impact, which I shall arbitrarily set to a generous 1 second
F = 30x106(5/1) = 150,000,000 N
Put another way, that's the same as getting hit with a 1 kg cannon ball (over an impact period of 1 second) traveling at 150,000,000 m/s (half the speed of light!)
It is not an insignificant amount of force, and you can't just wave your hands and say "it never hits the towers", because even assuming the "fluid" upper block is deflected by the lower block, you have to account for the force applied to the lower section as it deflects all that mass over the duration of the impact.
Heiwa seems to assume that if the upper block is not "solid", it must be macroscopically fluid, and thus would behave the same as water in stream, and break around the object.
At lower flow rates, you have a small mass of water impacting over a relatively long time, which allows the water to flow around the object.
At higher velocities (like, say, the deluge from a water bomber), the mass of water is huge, and it impacts over a very short time. It packs a helluva punch.
The same thing would happen with a large mass of rubble (rubble for Heiwa's fluid upper block). A lot of rubble (whatever consistency you want) impacting over a short time (and in a small area, since most of the mass is vertical, not spread out horizontally), will impact with a force not appreciably less than if it were rigid.
F = m(dv/dt)
F = impact force
m = mass
dv = change in velocity
dt = change in time
so, if m = 33,00 tons ~ 30x106 kg
dv = vinitial - vfinal, which I shall arbitrarily (since I don't know the speed at which the upper block fell) set to a conservative to dv = 5 m/s
dt = time of impact, which I shall arbitrarily set to a generous 1 second
F = 30x106(5/1) = 150,000,000 N
Put another way, that's the same as getting hit with a 1 kg cannon ball (over an impact period of 1 second) traveling at 150,000,000 m/s (half the speed of light!)
It is not an insignificant amount of force, and you can't just wave your hands and say "it never hits the towers", because even assuming the "fluid" upper block is deflected by the lower block, you have to account for the force applied to the lower section as it deflects all that mass over the duration of the impact.
Alferd_Packer
Philosopher
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I predict that Heiwa will ignore this request as he has ignored all of my similer requests.
To address this issue would require him to admit that his theory that the exterior walls could not have buckled is wrong.
cloudshipsrule
Graduate Poster
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Amazing the Grand Canyon even exists, huh?!
rwguinn
Penultimate Amazing
Alferd_Packer
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Heiwa
Can you demonstrate that you understand the consequences of having a mathematical function that includes an inverse square term in it?
(i.e. x over L squared)
Can you demonstrate that you understand the consequences of having a mathematical function that includes an inverse square term in it?
(i.e. x over L squared)
Last edited:
cloudshipsrule
Graduate Poster
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Forgot to use my [//sarcasm] formatting.
rwguinn
Penultimate Amazing
I knew that--
The reference was for the ijits what
Alferd_Packer
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DGM
Skeptic not Atheist
Shouldn't you say technical arguments that you can understand? Maybe you should go to an elementary school and discus engineering with them (even playing field).
Why do you hand wave all engineering criticisms?
Face it man, You are out of your league as far a structural engineering is concerned.(every lurker can see this)
Newtons Bit
Penultimate Amazing
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Please explain to me how a 5/8" plate (in the weak axis) over the course of 208ft is going to brace a column against buckling.
rwguinn
Penultimate Amazing
Alferd_Packer
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I have to hand it to Heiwa; his arguments comprehensively busted, his rebuttals non-existent, his calculations.....hidden (cough). And yet he thinks that he's got us on the back foot?
Nowt as queer as fowk, as they say.
Nowt as queer as fowk, as they say.