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It is difficult for us to predict even the motion of a slinky. What happens when you drop it?
Things don't necessarily behave the way you think they should if they are very big, very small, at extreme temperatures, extreme pressures, etc.
This is why plausibility and confabulated scenarios can be so misleading.
Some reasonable sounding assertion is made, but we are astonished when it does not turn out that way.
We have risk equations and economic models that are asserted to tell you the future. Sometimes they do, and sometimes they do not.
Profs say "We need more quants (quantitative modelers)! Then the equations will work next time!"
Maybe, but that sounds like superstition. If the medicine didnt work, it is because I didnt do the ritual right, or the stars were not aligned, or...
Anyway, very amusing to watch. Im sure kids will like it.
Sorta like "black swan", maybe it would be better to say "drop a slinky".
http://www.huffingtonpost.co.uk/2012...n_1611538.html
Things don't necessarily behave the way you think they should if they are very big, very small, at extreme temperatures, extreme pressures, etc.
This is why plausibility and confabulated scenarios can be so misleading.
Some reasonable sounding assertion is made, but we are astonished when it does not turn out that way.
We have risk equations and economic models that are asserted to tell you the future. Sometimes they do, and sometimes they do not.
Profs say "We need more quants (quantitative modelers)! Then the equations will work next time!"
Maybe, but that sounds like superstition. If the medicine didnt work, it is because I didnt do the ritual right, or the stars were not aligned, or...
Anyway, very amusing to watch. Im sure kids will like it.
Sorta like "black swan", maybe it would be better to say "drop a slinky".
http://www.huffingtonpost.co.uk/2012...n_1611538.html
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