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Carathéodory's criterion is a result in measure theory that was formulated by Greek mathematician Constantin Carathéodory that characterizes when a set is Lebesgue measurable.
Statement
editCarathéodory's criterion: Let denote the Lebesgue outer measure on where denotes the power set of and let Then is Lebesgue measurable if and only if for every where denotes the complement of Notice that is not required to be a measurable set.[1]
Generalization
editThe Carathéodory criterion is of considerable importance because, in contrast to Lebesgue's original formulation of measurability, which relies on certain topological properties of this criterion readily generalizes to a characterization of measurability in abstract spaces. Indeed, in the generalization to abstract measures, this theorem is sometimes extended to a definition of measurability.[1] Thus, we have the following definition: If is an outer measure on a set where denotes the power set of then a subset is called –measurable or Carathéodory-measurable if for every the equality holds where is the complement of
The family of all –measurable subsets is a σ-algebra (so for instance, the complement of a –measurable set is –measurable, and the same is true of countable intersections and unions of –measurable sets) and the restriction of the outer measure to this family is a measure.
See also
edit- Carathéodory's extension theorem – Theorem extending pre-measures to measures
- Non-Borel set – Class of mathematical sets
- Non-measurable set – Set which cannot be assigned a meaningful "volume"
- Outer measure – Mathematical function
- Vitali set – Set of real numbers that is not Lebesgue measurable
References
edit- ^ a b Pugh, Charles C. Real Mathematical Analysis (2nd ed.). Springer. p. 388. ISBN 978-3-319-17770-0.