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Unlike a pinned drop, a receding drop pushes fluid towards its interior, continuously deposits mass across its substrate as it evaporates, and does not produce the usual \"coffee ring.\" For a thin, circular drop with a constant evaporation rate, we find the surface density of the stain goes as $\\eta(r) \\propto \\left(\\left(r/a_0\\right)^{-1/2}-r/a_0\\right)$, where $r$ is the radius from the drop center and $a_0$ is the initial outer radius. 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