Isomorphism of Measure Spaces: Difference between revisions

Motivation

Definition

Let ${\displaystyle X}$ be a measurable space and ${\displaystyle A}$ a sigma algebra on ${\displaystyle X}$. Similary, Let ${\displaystyle Y}$ be a measurable space and ${\displaystyle B}$ a sigma algebra on ${\displaystyle Y}$. Let ${\displaystyle (X,A)}$ and ${\displaystyle (Y,B)}$ be measurable spaces.

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Basic Theorem

Properties

Smooth maps send sets of measure zero to sets of measure zero

Let ${\displaystyle U}$ be an open set of ${\displaystyle \mathbb {R} ^{n}}$, and let ${\displaystyle f\colon U\rightarrow \mathbb {R} ^{n}}$ be a smooth map. If ${\displaystyle A\subset U}$ is of measure zero, then ${\displaystyle f(A)}$ is of measure zero.

Mini-Sards Theorem

Let ${\displaystyle U}$ be an open set of ${\displaystyle \mathbb {R} ^{n}}$, and let ${\displaystyle f\colon U\rightarrow \mathbb {R} ^{m}}$ be a smooth map. Then if ${\displaystyle m>n}$, ${\displaystyle f(U)}$ has measure zero in ${\displaystyle \mathbb {R} ^{m}}$.

Example