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In how many different ways can a cube be painted by using three different colors of paint?

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Unless you give more detail, I'm gonna say "uncountably infinitely many". You probably left out some restriction on how to pain (e.g. one color per side). But in any case, I don't see this being even remotely on-topic for a programming Q&A site. –  delnan Feb 18 '14 at 21:00
Why do you want to pain the cube in the first place? What did it ever do to hurt you? –  itsjeyd Feb 18 '14 at 21:01
@delnan assume there are infinitely many ways of doing this (which is not correct, because the cube has a finite number of sides and we have a finite number of colours), why on earth would this set be uncountable? –  Radix Feb 18 '14 at 21:13
@delnan I don't see what more detail you could possibly want, or how you come to the conclusion that it could possibly be infinitely many, let alone uncountably so. –  Kaz Feb 18 '14 at 21:13
@Radix You're making the assumption of one color per side (which I even mentioned myself!). But can't we put more colors on each side? Can't we paint a complicated picture on a side? A single side, modeled as plane in R², already has uncountably many points, I made the not-really-serious assumption that we can point any of these point differently. –  delnan Feb 18 '14 at 21:17

2 Answers 2

It is a harder question than 3^6 if you interpret it in the only interesting way possible: how many distinct (i.e. up to symmetry) ways are there to color a cube. Here's a paper: http://www.math.wayne.edu/~danf/talks/CF.pdf, and the answer is apparently 57.

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Why? The answer is as always: 42

(ps. 3^6=729)

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