The results of a study of topographic substrate planarization with films applied by a spin‐coating process are reported. It is shown that spin coating produces conformal film profiles over topographic gaps on the substrate that are wider than about 50 μm and that leveling of these gaps can only occur after spinning ceases if the film is able to flow over large distances. A comparison of the major forces acting on the film leads to the conclusion that the flow is driven primarily by capillarity when the width of the gap is less than 5000 μm. A theory is developed that relates the time required to level the gaps to their width and to the thickness and viscosity of the film. The results of experiments performed to test the theory are presented and discussed.