I see that! Very nice. Funny how knowledge of existence of a solution leads you to see that solution . . . -tom On Fri, Jan 12, 2018 at 12:07 PM, Adam P. Goucher <apgoucher@gmx.com> wrote:
This can, in turn, be optimised into a solution with 25% fewer pieces.
-- APG.
Sent: Friday, January 12, 2018 at 7:24 PM From: "Allan Wechsler" <acwacw@gmail.com> To: math-fun <math-fun@mailman.xmission.com> Subject: Re: [math-fun] Sphere to cube dissection?
Yes, I see that. Cool.
On Fri, Jan 12, 2018 at 2:21 PM, Tomas Rokicki <rokicki@gmail.com> wrote:
By tangency contact I guess you mean contact with negligible mating surface.
If we don't permit that and we want a minimum mating surface, it's easy to change it to a solution requiring only twice the number of pieces.
On Fri, Jan 12, 2018 at 11:17 AM, Allan Wechsler <acwacw@gmail.com> wrote:
Oh. If we are permitting tangency contact, then I see the solution Tom has in mind :)
On Fri, Jan 12, 2018 at 2:16 PM, Allan Wechsler <acwacw@gmail.com> wrote:
Well, you've stumped me!
On Fri, Jan 12, 2018 at 2:15 PM, Tomas Rokicki <rokicki@gmail.com> wrote:
There's a much simpler and cleaner solution to the 2D case.
On Fri, Jan 12, 2018 at 11:13 AM, Allan Wechsler < acwacw@gmail.com> wrote:
> I was an idiot not to look at the the 2D case first. I don't have a > detailed solution, but the sketch is, a roughly square section in the > middle cut into planks, which get reassembled end-to-end to make the > outside of the square, and then the four remaining sections of the circle > get chopped up fine enough to fill in the middle. I would guess it can be > done in about 20 pieces at most. > > On Fri, Jan 12, 2018 at 1:37 PM, Tomas Rokicki < rokicki@gmail.com> wrote: > > > ... I didn't see the solution for 2D immediately ... but suddenly I did. > > > > Neat puzzle. > > > > On Fri, Jan 12, 2018 at 10:07 AM, Allan Wechsler < acwacw@gmail.com> > wrote: > > > > > It's obviously possible to dissect a sphere into pieces that could be > > > reassembled into something that looks like a cube from the outside. > > Inside, > > > it would be hollow, possibly with a bunch of spare pieces rattling > around > > > inside. > > > > > > Feasibility sketch: build thin polyhedral planks from the inner part of > > the > > > sphere, with 45-degree bevels where necessary to let them form the > cube's > > > edges and vertices. All the extra material could be chopped up into > > > manageable chunks and hidden in the interior. If there's too much extra > > > material, redesign with thinner planks to make the outer cube bigger. > > > > > > Intuitively, it feels like we could get away with just a few dozen > pieces > > > or so: maybe 4 to 6 per face, and then an approximately equal number to > > > pack inside ... but I don't know. Can anybody provide an explicit > > > construction, or make lower-bound arguments about the number of pieces? > > > _______________________________________________ > > > math-fun mailing list > > > math-fun@mailman.xmission.com > > > https://mailman.xmission.com/cgi-bin/mailman/listinfo/math- fun > > > > > > > > > > > -- > > -- http://cube20.org/ -- http://golly.sf.net/ -- > > _______________________________________________ > > math-fun mailing list > > math-fun@mailman.xmission.com > > https://mailman.xmission.com/cgi-bin/mailman/listinfo/math- fun > > > _______________________________________________ > math-fun mailing list > math-fun@mailman.xmission.com > https://mailman.xmission.com/cgi-bin/mailman/listinfo/math-fun >
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