Modes of Convergence: Difference between revisions
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* <math>f_n \to f</math> through uniform Convergence <math>\to </math><math> f_n \to f</math> through pointwise convergence <math> \to </math> <math>f_n \to f</math> pointwise a.e. convergence | * <math>f_n \to f</math> through uniform Convergence <math>\to </math><math> f_n \to f</math> through pointwise convergence <math> \to </math> <math>f_n \to f</math> pointwise a.e. convergence | ||
* <math>f_n \to f</math> through <math> L^1</math> convergence <math>\to </math> <math>f_n \to f</math> through pointwise a.e convergence up to a subsequence | * <math>f_n \to f</math> through <math> L^1</math> convergence <math>\to </math> <math>f_n \to f</math> through pointwise a.e convergence up to a subsequence | ||
* <math>f_n \to f</math> Pointwise a.e. convergence equipped with dominating function implies <math>f_n \to f</math> <math>L^1</math> convergence | * <math>f_n \to f</math> Pointwise a.e. convergence equipped with dominating function implies <math>f_n \to f</math> <math>L^1</math> convergence.<ref name="Craig, Katy">Craig, Katy. ''MATH 201A Lecture 18''. UC Santa Barbara, Fall 2020.</ref> | ||
<ref name="Craig, Katy">Craig, Katy. ''MATH 201A Lecture 18 | |||
Revision as of 07:41, 18 December 2020
Relevant Definitions
Denote our measure space as . Note that a property p(x) holds for almost every if the set has measure zero.
- A sequence of functions converges pointwise if for all
- A sequence of functions converges uniformly if ,
- A sequence of measurable functions converges to pointwise almost everywhere if for almost every , or .
- A sequence of measurable functions converges in if
Relevant Properties
- through uniform Convergence through pointwise convergence pointwise a.e. convergence
- through convergence through pointwise a.e convergence up to a subsequence
- Pointwise a.e. convergence equipped with dominating function implies convergence.[1]
- ↑ Craig, Katy. MATH 201A Lecture 18. UC Santa Barbara, Fall 2020.