Differentiability of continuous functions in terms of Haar-smallness

Abstract

One of the classical results concerning differentiability of continuous functions states that the set SD of somewhere differentiable functions (i.e., functions which are differentiable at some point) is Haar-null in the space C[0,1]. By a recent result of Banakh et al., a set is Haar-null provided that there is a Borel hull B⊃eq A and a continuous map f \0,1\N C[0,1] such that f-1[B+h] is Lebesgue's null for all h∈ C[0,1]. We prove that SD is not Haar-countable (i.e., does not satisfy the above property with "Lebesgue's null" replaced by "countable", or, equivalently, for each copy C of \0,1\N there is an h∈ C[0,1] such that SD (C+h) is uncountable. Moreover, we use the above notions in further studies of differentiability of continuous functions. Namely, we consider functions differentiable on a set of positive Lebesgue's measure and functions differentiable almost everywhere with respect to Lebesgue's measure. Furthermore, we study multidimensional case, i.e., differentiability of continuous functions defined on [0,1]k. Finally, we pose an open question concerning Takagi's function.