On the Cantor set and the Cantor-Lebesgue functions

Abstract: The ternary Cantor set $\mathcal{C}$, constructed by George Cantor in 1883, is the best known example of a perfect nowhere-dense set in the real line. The present article we study the basic properties $\mathcal{C}$ and also study in detail the ternary expansion characterization $\mathcal{C}$. We then consider the Cantor-Lebesgue function defined on $\mathcal{C},$ prove its basic properties and study its continuous extension to $[0,1].$ We also consider the geometric construction of $F$ as the uniform limit of polygonal functions. Finally, we consider the Lebesgue's function defined from $\mathcal{C}$ onto $[0,1]^2$ and onto $[0,1]^3,$ as well as their continuous extension to $[0,1],$ i.e., obtained the Lebesgue's space filling curves. Finally we discuss Hausdorff's theorem, which is a natural generalization of the definition of Lebesgue's functions, that states that any compact metric space is a continuous image of the Cantor set $\mathcal{C}$. This notes are the outgrowth of a (zoom)-seminar during the 2020 spring and summer semesters based on H. Sagan's book \cite{sagan}, thus there is not any pretension of originality and/or innovation in this notes and its main objective is a systematic exposition of these topics, in other words its objective is being a review.