$\newcommand\R{\mathbb R}\newcommand\S{\mathbb S}$
>**Question 1:** Let $S$ be a nonempty measurable subset of $\R^n$. Let $B$ be a closed ball in $\R^n$ such that $m(B)=m(S)$, where $m$ is the Lebesgue measure. Is there a bijective $1$-Lipschitz map from $S$ onto a dense subset of $B$? 

>**Question 2:** If such a map exists, can we make it measure-preserving? 

>**Question 1a:** Let $S$ be a nonempty measurable subset of $\S^{n-1}$, the unit sphere in $\R^n$. Let $C\subseteq\S^{n-1}$ be a closed spherical cap such that $m(C)=m(S)$, where $m$ is the Haar measure. Is there a bijective $1$-Lipschitz map from $S$ onto a dense subset of $C$? (The metric on $\S^{n-1}$ with respect to which the $1$-Lipschitz condition is considered is either the geodesic metric on $\S^{n-1}$ or, equivalently, the one induced by the Euclidean metric on $\R^n$.)

>**Question 2a:** If a map described in Question 1a exists, can we make it measure-preserving? 

A complete and correct answer to any one of these four questions will be considered a complete and correct answer to the entire post. 

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Related, but different, questions and answers can be found on this [MathOverflow page][1] of 2018. 


  [1]: https://mathoverflow.net/questions/309985/existence-of-a-lipschitz-map-from-a-positive-measure-set-to-a-ball