Suppose the points of two random walks in $\mathbb{R}^2$ are given the step number (or time) as a third coordinate, so that they become paths in $\mathbb{R}^3$. Here are several pairs of walks of $n=100$ steps, both starting at the origin, with steps normally distributed with $\sigma=1$: <br /> ![TwistedWalks][1]<br /> I would like to know the expected number of times that one path winds about the other, as a function of $n$, the number of steps. I believe for the three pairs illustrated, there is zero winding by $n=100$. Experiments indicate winding becomes less likely as $n$ grows. This is a bit counterintuitive to me. The winding number of path $b(t)$ about path $a(t)$ up to $t=T$ could be defined by counting the number of times the vector $b(t)-a(t)$ turns around the origin for $t\in[0,T]$. [1]: https://i.sstatic.net/Hkvch.jpg