Prove that, there exists no continuous function $f:\mathbb R\rightarrow\mathbb R$ with $f=\chi_{[0,1]}$ almost everywhere.$\textbf(Make\ sure\ that\ your\ proof\ is\ completely\ rigorous)$.
I don't know, which property to use. (It is not allowed to show it with $\epsilon-\delta-criterion$, our last topics were: Lp-Spaces, Radon-Nikodym Theorem, Riesz Representation Theorem,Lipschitz-Functions, Product measures, Fubini Theorem)
but i can't find anything to do with continuity, which of them could be useful ?
Best Answer
Hint1: if a subset of $\mathbb{R}$ has a complement with Lebesgue measure $0$ then it is dense.
Hint2: continuous functions are determined by their values on a dense set.