I know that the dihedral group is $$D_{2n} = \{1, r, r^2, \dotsc, r^{n-1}, s, sr, \dotsc, sr^n-1\}$$ where the $r^i$ are rotations and $s$ is a symmetry.
Now, what I want to know is what is the nature of $s$. It's a symmetry, but is it symmetry to the $y$ axis, to the $x$ axis, or to the origin? I thought it would be symmetric to the origin, but there's the following property $srs= r^{-1}$ but if $s$ is a symmetry according to the origin then I just get $srs=r$.
Geometrically, the Dihedral group $ D_{2n}$ is the group os symmetries of a regular polygon with $n$ sides.
For this planar figure you can find to types of symmetries: $n$ rotational symmetries (denoted by $r$) and reflection symmetries (denoted by $s$).
To describe this group algebraically, you pick some rotation of order $n$ and call it $r$, and some axis (not just $x$ or $y$) that divides the figure in two equal pieces and call the reflection through that axis $s$. The way you should think about multiplication in this group is as composition of these two movements.
Just found this on youtube, I think it can help you solve your doubts: https://www.youtube.com/watch?v=rPh7EQPSaO4
Also: https://en.wikipedia.org/wiki/Dihedral_group