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I'm currently trying to read a geometry and symmetry book and came across a little problem that I am having difficulty understanding.
I need to show that if xm=mx then the point X is on the line M, and also that if xa=ax, then the point X is on the plane A.

Note that x is the inversion through the point X and m is the reflection across the mirror M.

Super stuck. Any insight or suggestions would be great. Thanks.

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    Not really, I am having$a$difficult time with this question in general. But any advice would be great.2012-11-26

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A good way to compare functions is by applying them to something. Given that there is only one point in the problem statement, it is reasonable to apply the function to $x$. At this point, the weakness of your notation becomes a big nuisance, so let us call $r_x$ the reflection with respect to the point $x$ and $r_m$ the reflection with respect to the line/plane $m$.

Now $x$ is the unique fixed point of $r_x$.

So, if $r_x\circ r_m = r_m \circ r_x$, then $r_x(r_m(x))=r_m(r_x(x))=r_m(x)$.

This implies that $r_m(x)$ is a fixed point of $r_x$, so $r_m(x)=x$. This implies that $x$ is a fixed point of $r_m$, so it has to be on the fixed line/plane $m$.