What does $\Bbb Z[\frac16]/\Bbb Z$ and its subgroups look like? In particular, I'm trying to get a grip on how many elements there are of any given order, and what their graph looks like.
I'm referring to the additive group with addition modulo $1$, where $\Bbb Z[\frac16]$ is the subfield of $\Bbb Q$
So I'm thinking of these as the fractions in the interval $[0,1)$ having denominators drawn from $2^n\cdot3^m$.
In the case of $\Bbb Z[\frac12]/\Bbb Z$ it's fairly straightforward as there are $2^{n-1}$ elements of order $2^n$, those being the odd integers over $2^n$ in the interval.
The subgroups of $\Bbb Z[\frac12]/\Bbb Z$ are also fairly trivial to describe as being the Prufer 2-group the hierarchy is a one-dimensional descent through the powers $2^n$
The Prufer 2-group can easily be graphed by the regular, infinite, binary rooted tree.
What are the comparable three statements for $\Bbb Z[\frac16]/\Bbb Z$? I presume a little complexity is introduced by having a combination of two prime factors in the denominators.
