Announcement
Collapse
No announcement yet.
Table held up by buckets resting on it.
Collapse
X
-
-
The buckets weigh more than the rest, but they interfere with the board, so it can't go past them. If the amount of rope available is less than what would let them touch the ground, they're just going to find their own level until all of the slack is out of the rope. What's so hard to understand?ZOMBIE REAGAN FOR PRESIDENT 2016!!! heh
-
It's a static system, and it always will as long as the combined weight of the buckets > the weight of the table (As long as the weight of the 4 buckets plus the table doesn't overcome what the string can support... or the buckets more than the wood can support... or...) - so why doesn't it just read "Table and buckets held up by each other" As long as it's static the only thing you really need to worry about is the tension in the strings.
If you want to get really technical isn't it all "held up" by the pulleys in the ceiling.
What if the buckets are empty and just screwed to the table?
Comment
-
I didn't stay at a Holiday Inn Express last night, but my $0.02 is that each bucket is exerting it's own weight minus 1/4 that of of table, and then a smidge less than that to account for the minimal friction in the pulley.
I would be curious to know exactly what the scales would say should you put one under each bucket.
Comment
-
Originally posted by tribaltalon View Posti would say the rope is holding the buckets and the table up. btw fresh water weighs 8.34 lbs/gal if anybody wants to get real stupid and try and figure out exactly what everything weighs. i love how people try to complicate the shit out of a simple thing.
Comment
-
Maybe there's a cat in each one. Are they dead?Originally posted by Taya Kyle, American GunThere comes a time when honest debate, serious diplomatic efforts, and logical arguments have been exhausted and only men and women willing to take up arms against evil will suffice to save the freedom of a nation or continent.
Comment
-
Originally posted by YALE View PostThe buckets weigh more than the rest, but they interfere with the board, so it can't go past them. If the amount of rope available is less than what would let them touch the ground, they're just going to find their own level until all of the slack is out of the rope. What's so hard to understand?
Comment
-
Originally posted by line-em-up View Post1+1=2 is simple to understand, yet there is still a mathematical equation for it. I am looking for the equation for the problem. :-)ZOMBIE REAGAN FOR PRESIDENT 2016!!! heh
Comment
Comment