Each Peano subspace of \(E^ k\) is an \(\omega\)-limit set (Q1189096)

A set \(A\subset \mathbb{R}^ k\) is said to be an \(\omega\)-limit if \(A= \omega(x,f)\) for some continuous \(f: B\to B\subset \mathbb{R}^ k\) and some \(x\in B\). Here \(\omega(x,f)\) stands for the set of limit points of the sequence \(\{f^ n(x)\}^ \infty_{n=0}\). An \(\omega\)-limit set \(A\) is orbit enclosing if \(\omega(x,f)\) contains the range of the sequence \(\{f^ n(x)\}^ \infty_{n=0}\). Theorem. (a) The union of finitely many mutually disjoint nondegenerate Peano subspaces of \(\mathbb{R}^ k\) is an enclosing \(\omega\)-limit set. (b) The same is valid for the union of a nondegenerate Peano subspace of \(\mathbb{R}^ k\) and a closed line segment of \(\mathbb{R}^ k\) disjoint from it. Recall that a Peano set is a nonvoid compact connected and locally connected set of \(\mathbb{R}^ k\).