Impossible, guy would need a true level surface.
Hold my beer. I can do it on any surface with just three legs.
Not that impressive on carpet
Does it work with blue chairs?
I only manage two but that’s how many legs I have in total so no change to be on more than two while doing anything else
This reminds me about Numberphile has a video that proves you can get a 4 legged table to be stable with all 4 legs touching the ground by rotating it.
Does it require any arbitrary constraints on the topography of the floor?
Yes, the floor has to be bigger than the chair.
Sorta. The function height(angle) needs to be continuous. From there it’s pretty clear why it works if you know the mean value theorem.
Yeah, I guess the assumption it takes is that there aren’t larger topographic changes for the other legs between their points, and that the legs are equal length. But I like it, it’s a fun one I’m trying next time
This can’t actually work if the floor is a level plane right?
Right. Somehow I was thinking only of the floor being uneven, not the table legs. Surely it’s trivial to have table legs sufficiently different to not fit on any arbitrary shape of floor?
Haha yes :) I was somehow thinking for this type of problem, the usual case is the legs are uneven… because if the floor is uneven or not level the table will be uneven or not level regardless of whether it has 0, 1, or n legs. But I guess the problem is about “wobbling” not about being level.
In my case the chair wobbles on 3 legs and I have to shim the 4th one.
Oh I thought this was about how to make a chair now wobble anymore