Absolutely Continuous Measures: Difference between revisions

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==Definitions==
==Definitions==
Let <math> (X,\mathcal{M},\mu_1) </math> be a measure space. The measure <math> \mu_2 </math> is said to be absolutely continuous with respect to <math> \mu_1 </math> if <math> \mu_1(T) = 0 \implies \mu_2(T) = 0</math> where <math> T\in \mathcal{M}</math>.
Let <math> (X,\mathcal{M},\mu_1) </math> be a measure space. The measure <math> \mu_2:\mathcal{M}\rightarrow [0,\infty] </math> is said to be absolutely continuous with respect to the measure <math> \mu_1 </math> if we have that <math> \mu_1(T) = 0 \implies \mu_2(T) = 0</math> where <math> T\in \mathcal{M}</math>.

Revision as of 17:14, 18 December 2020

Definitions

Let be a measure space. The measure is said to be absolutely continuous with respect to the measure if we have that where .