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$x^2 + y^2 + z^2 = 3xyz$

How many ordered triples $(x,y,z)$ are there that satisfy the above equation.

are the only solutions $x=y=z=0$ and $1$?

Are there non trivial solutions?

I saw this problem in a friends textbook but cannot remember the name of it therefore cannot cite the the exact source.

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    This question may be helpful: http://math.stackexchange.com/questions/94394/diophantine-equation-in-positive-integers2012-12-10

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There are $41$ solutions (this refers to the original problem statement that included the condition $-10). If we additionally require $x\le y\le z$, there are only the following $10$: $[-5, -2, 1]\\ [-5, -1, 2]\\ [-2, -1, 1]\\ [-2, -1, 5]\\ [-1, -1, 1]\\ [-1, -1, 2]\\ [0, 0, 0]\\ [1, 1, 1]\\ [1, 1, 2]\\ [1, 2, 5]$ Without the restriction $|x|,|y|,|z|<10$, a whole bunch of additional solutions comes up, e.g. $(5, 29, 433)$.

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    Hm, if I wanted to identify $(1,2,5)$ with $(5,1,2)$, I'd say I count *unordered* triples and if I count them as different solutions I'd say I count *ordered* triples. Of course the former implicitly allows me to *impose* an order to my liking on the triple, so that may be confusing.2012-12-09