Dominated Convergence Theorem: Difference between revisions

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

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

and consequently

${\displaystyle \int f_{n}\to \int f}$

Lemma

Suppose ${\displaystyle f}$ is integrable in ${\displaystyle R}$. Then for every Failed to parse (unknown function "\epslion"): {\displaystyle \epslion>0}