Higher derivatives of functions vanishing on a given set

Abstract

Let f: Bn → R be a d+1 times continuously differentiable function on the unit ball Bn, with z∈ Bn f(z) =1. A well-known fact is that if f vanishes on a set Z⊂ Bn with a non-empty interior, then for each k=1,…,d+1 the norm of the k-th derivative ||f(k)|| is at least M=M(n,k)>0. We show that this fact remains valid for all ``sufficiently dense'' sets Z (including finite ones). The density of Z is measured via the behavior of the covering numbers of Z. In particular, the bound ||f(k)|| M= M(n,k)>0 holds for each Z with the box (or Minkowski, or entropy) dimension e(Z) greater than n-1k.