Consider a monotone Boolean function $f:{0,1}^nto{0,1}$ and the canonical monotone coupling ${eta_p:pin[0,1]}$ of an element in ${0,1}^n$ chosen according to product measure with intensity $pin[0,1]$. The random point $pin[0,1]$ where $f(eta_p)$ flips from $0$ to $1$ is often concentrated near a particular point, thus exhibiting a threshold phenomenon. For a sequence of such Boolean functions, we peer closely into this threshold window and consider, for large $n$, the limiting distribution (properly normalized to be nondegenerate) of this random point where the Boolean function switches from being 0 to 1. We determine this distribution for a number of the Boolean functions which are typically studied and pay particular attention to the functions corresponding to iterated majority and percolation crossings. It turns out that these limiting distributions have quite varying behavior. In fact, we show that any nondegenerate probability measure on $mathbb{R}$ arises in this way for some sequence of Boolean functions.
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