Absolute continuity Guide, Meaning , Facts, Information and Description
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2 Absolute continuity of measures 3 The connection between absolute continuity of real functions and absolute continuity of measures |
In mathematics, a real-valued function f of a real variable is absolutely continuous if for every positive number ε, no matter how small, there is a positive number δ small enough so that whenever a sequence of pairwise disjoint intervals [xk, yk], k = 1, ..., n satisfies
Absolute continuity of real functions
then
Every absolutely continuous function is uniformly continuous and, therefore, continuous. Every Lipschitz-continuous function is absolutely continuous.
The Cantor function is continuous everywhere but not absolutely continuous.
If μ and ν are measures on the same measure space (or, more precisely, on the same sigma-algebra) then μ is absolutely continuous with respect to ν if μ(A) = 0 for every set A for which ν(A) = 0. One writes "μ << ν".
The Radon-Nikodym theorem states that if μ is absolutely continuous with respect to ν, and ν is σ-finite, then μ has a density, or "Radon-Nikodym derivative", with respect to ν, i.e., a measurable function f taking values in [0,∞], denoted by f = dμ/dν, such that for any measurable set A we have
A measure μ on Borel subsets of the real line is absolutely continuous with respect to Lebesgue measure if and only if the point function
This is an Article on Absolute continuity. Page Contains Information, Facts Details or Explanation Guide About Absolute continuity Absolute continuity of measures
The connection between absolute continuity of real functions and absolute continuity of measures
is an absolutely continuous real function.