Dominated Convergence Theorem: Difference between revisions

Revision as of 03:49, 18 December 2020

In measure theory, the dominated convergence theorem is a cornerstone of Lebesgue integration. It can be viewed as a culmination of all efforts, and is a general statement about the interplay between limits and integrals.

Statement and proof of Theorem

Statement: Suppose $\{f_{n}\}$ is a sequence of measurable functions such that $f_{n}(x)\to f(x)$ a.e. x, as n goes to infinity. If $|f_{n}(x)|\leq g(x)$ , where g is integrable, then

\int |f_{n}-f|\to 0

and consequently

\int f_{n}\to \int f

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 In measure theory, the dominated convergence theorem is a cornerstone of Lebesgue integration. It can be viewed as a culmination of all efforts, and is a general statement about the interplay between limits and integrals.
 ==Statement and proof of Theorem==
-*Statement: Suppose <math>\{f_n\}</math> is a sequence of [[Measurable function | measurable function]] such that <math>f_n(x) \to f(x)</math> a.e. x, as n goes to infinity. If <math>|f_n(x)|\leq g(x) </math>, where g is integrable, then
+*Statement: Suppose <math>\{f_n\}</math> is a sequence of [[Measurable function | measurable function]]s such that <math>f_n(x) \to f(x)</math> a.e. x, as n goes to infinity. If <math>|f_n(x)|\leq g(x) </math>, where g is integrable, then
 :<math>\int |f_n-f|\to 0</math>
 and consequently
 :<math>\int f_n \to \int f</math>

Dominated Convergence Theorem: Difference between revisions

Revision as of 03:49, 18 December 2020

Statement and proof of Theorem

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