|
|
|
|
|
|
by sfink
508 days ago
|
|
|
Oh. Er... I didn't really consider whether it could be proven to have an integral, I just went off of intuition. After an additional lifetime of study, magically compressed into 15 minutes of skimming Wikipedia articles, I'm going to (tenuously) claim that the function is Lebesgue integrable. Heck, if it works for the {0 if irrational, 1 if rational} function, this should be much easier. I hope? My original intuition is that every value in [0, 1] will be cancelled by a value in [-1, 0]. My updated intuition to make it more Lebesgue-compatible would be to sort the (infinite) set of values in the interval. This will give the everywhere continuous, linear function from -1 at the minimum coordinate of the interval to 1 at the maximum coordinate. Hm... I notice that when applying Lebesgue to Dirichlet, it uses countability, and reals aren't countable. I have no clue whether that's a problem here or not. |
|
|