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Almost everywhere
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Almost everywhere : ウィキペディア英語版
Almost everywhere

In measure theory (a branch of mathematical analysis), a property holds almost everywhere if, in a technical sense, the set for which the property holds takes up nearly all possibilities. The notion of almost everywhere is a companion notion to the concept of measure zero. In the subject of probability, which is largely based in measure theory, the notion is referred to as ''almost surely''.
More specifically, a property holds almost everywhere if the set of elements for which the property does not hold is a set of measure zero (Halmos 1974), or equivalently if the set of elements for which the property holds is conull. In cases where the measure is not complete, it is sufficient that the set is contained within a set of measure zero. When discussing sets of real numbers, the Lebesgue measure is assumed unless otherwise stated.
The term ''almost everywhere'' is abbreviated ''a.e.''; in older literature ''p.p.'' is used, to stand for the equivalent French language phrase ''presque partout''.
A set with full measure is one whose complement is of measure zero. In probability theory, the terms ''almost surely'', ''almost certain'' and ''almost always'' refer to sets with probability 1, which are exactly the sets of full measure in a probability space.
Occasionally, instead of saying that a property holds almost everywhere, it is said that the property holds for almost all elements (though the term almost all also has other meanings).
== Properties ==

* If ''f'' : R → R is a Lebesgue integrable function and ''f''(''x'') ≥ 0 almost everywhere, then
::\int_a^b f(x) \, dx \geq 0
:for all real numbers ''a'' < ''b'' with equality iff f(x)=0 almost everywhere.
* If ''f'' : (''b'' ) → R is a monotonic function, then ''f'' is differentiable almost everywhere.
* If ''f'' : R → R is Lebesgue measurable and
::\int_a^b |f(x)| \, dx < \infty
:for all real numbers ''a'' < ''b'', then there exists a set ''E'' (depending on ''f'') such that, if ''x'' is in ''E'', the Lebesgue mean
::\frac \int_^ f(t)\,dt
:converges to ''f''(''x'') as \epsilon decreases to zero. The set ''E'' is called the Lebesgue set of ''f''. Its complement can be proved to have measure zero. In other words, the Lebesgue mean of ''f'' converges to ''f'' almost everywhere.
* If ''f''(''x'',''y'') is Borel measurable on R2 then for almost every ''x'', the function ''y''→''f''(''x'',''y'') is Borel measurable.
* A bounded function ''f'' : () → R is Riemann integrable if and only if it is continuous almost everywhere.
* As a curiosity, the decimal expansion of almost every real number in the interval (1 ) contains the complete text of Shakespeare's plays, encoded in ASCII; similar for every other finite digit sequence, see Normal number.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
ウィキペディアで「Almost everywhere」の詳細全文を読む



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