Measurable spaces

Arun Ram
Department of Mathematics and Statistics
University of Melbourne
Parkville, VIC 3010 Australia
aram@unimelb.edu.au

Last updates: 18 March 2011

Measurable spaces, measurable sets, and measurable functions

A measurable space is a set $X$ with a specification of the measurable subsets of $X$ where it is required that

(a)

X

is measurable,

(b) complements of measurable sets are measurable,

(d) countable intersections of measurable sets are measurable,

More precisely, let

X

be a set. A $σ$ -algebra on

X

is a set

ℳ

of subsets of

X

such that

(a)

X \in ℳ

(b) If

A \in ℳ

then

A^{c} \in ℳ

A_{1}, A_{2}, \dots \in ℳ

then

A_{1} \cup A_{2} \cup \dots \in ℳ

(d) If

A_{1}, A_{2}, \dots \in ℳ

then

A_{1} \cap A_{2} \cap \dots \in ℳ

HW: Show that (d) is redundant.

A measurable space is a set $X$ with a $σ$ -algebra $ℳ$ on $X$ .

Let $(X, ℳ)$ be a measurable space. A measurable set is a set in $ℳ$ .

Measurable functions

Let $(X, ℳ)$ be a measurable space. A simple measurable function is an element of

span- {χ_{A} | A \in ℳ}

, where

χ_{A} (x) = {\begin{matrix} 1, & if x \in A, \\ 0, & otherwise, \end{matrix}

is the characteristic function of

A

Let $Y$ be a topological space. A measurable function from $X$ to $Y$ is a function $f : X \to Y$ such that

V

is open in

Y

then

f^{- 1} (V)

is measurable in

X

Borel measurability

Let $X$ be a topological space with topology $𝒯$ . A Borel set is a subset $A$ of $X$ such that $A \in ℬ$ , where $ℬ$ is the $σ$ -algebra on $X$ generated by $𝒯$ .

Let $X$ be a locally compact Hausdorff topological space. A Borel measure on $X$ is a measure $μ : ℬ \to [0, \infty]$ , where $ℬ$ is the $σ$ -algebra of Borel sets on $X$ .

Notes and References

These notes were written for a course in "Measure Theory" at the Masters level at University of Melbourne. This presentation follows [Ru, §1.3].

References

[Ru] W. Rudin, Real and complex analysis, Third edition, McGraw-Hill, 1987. MR0924157.

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