Outer measure: Difference between revisions

Revision as of 20:06, 21 October 2020

Definition. Let

X

be a nonempty set. An outer measure ^[1] on the set

X

is a function

\mu ^{*}:2^{X}\to [0,\infty ]

such that

$\mu ^{*}(\emptyset )=0$ ,
$\mu ^{*}(A)\leq \mu ^{*}(B)$ if $A\subseteq B$ ,
$\mu ^{*}(\cup _{j=1}^{\infty }A_{j})\leq \sum _{j=1}^{\infty }\mu ^{*}(A_{j}).$

The second and third conditions in the definition of an outer measure is equivalent that $A\subseteq \cup _{i=1}^{\infty }B_{i}$ implies $\mu ^{*}(A)\leq \sum _{i=1}^{\infty }\mu ^{*}(B_{i})$ .

Definition. A set

A\subset X

is called

\mu ^{*}

-measurable if

\mu ^{*}(E)=\mu ^{*}(E\cap A)+\mu ^{*}(E\cap A^{c})

for all

E\subset X

.

Constructing a measure from an outer measure

References

↑ Gerald B. Folland, Real Analysis: Modern Techniques and Their Applications, second edition, Section 1.4

[Folland-1] Gerald B. Folland, Real Analysis: Modern Techniques and Their Applications, second edition, Section 1.4

[1]

@@ Line 5: / Line 5: @@
 * <math> \mu^* (\cup_{j=1}^\infty A_j) \leq  \sum_{j=1}^\infty \mu^*(A_j).</math>
-The second and third conditions in the definition of outer measure is equivalent that <math> A \subseteq \cup_{i=1}^\infty B_i </math> implies <math>\mu^*(A) \leq \sum_{i=1}^\infty \mu^*(B_i)</math>.
+The second and third conditions in the definition of an outer measure is equivalent that <math> A \subseteq \cup_{i=1}^\infty B_i </math> implies <math>\mu^*(A) \leq \sum_{i=1}^\infty \mu^*(B_i)</math>.
 : '''Definition.''' A set <math> A \subset X </math> is called <math> \mu^* </math>-measurable if <math>  \mu^*(E) = \mu^*(E \cap A) + \mu^* (E \cap A^c)</math> for all  <math> E \subset X </math>.

Outer measure: Difference between revisions

Revision as of 20:06, 21 October 2020

Constructing a measure from an outer measure

References

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