I can think of a few situations in math where a problem becomes easier or an object becomes simpler when some complexity is added. Examples: 1. $S^n$ is never contractible, but $S^{\infty}$ is. 2. The vanishing viscosity method of PDE's. 3. Higher-dimensional topology as opposed to low-dimensional topology (in some specific cases) 4. Singular homology as opposed to simplicial homology etc. What other examples are there where a more complex object is simpler to analyze than a 'simpler' object? I realize that you could say that if it is easier to analyze, then it is less complex, so let me restate it this way: >What examples are there where one object seems much more complicated than another, but in fact has a simpler structure? I've been thinking about things like the Ising model for magnetic phase changes and also about Navier-Stokes; perhaps the simplifications used to derive them make them harder to analyze in the end.