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Absolutely convergent series

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A series

(1)

with (in general) complex terms for which the series

(2)

converges.

For a series (1) to converge absolutely, a necessary and sufficient condition (Cauchy's criterion for the absolute convergence of a series) is that for any there exist a number such that for all numbers and for all integers the inequality

is true. If a series is absolutely convergent, it is also convergent. The series

where , is absolutely convergent; the series

is convergent, but not absolutely convergent. Let

(3)

be a series consisting of the same terms as the series (1) but taken, in general, in a different order. Since the series (1) is absolutely convergent, so is the series (3), and the sum of the series (3) is equal to the sum of the series (1). If the series

are both absolutely convergent, so is any one of their linear combinations

The series of all possible pairwise products of the terms of these series, arranged in an arbitrary order, is also absolutely convergent, and its sum is equal to the product of the sums of the original series. These properties of absolutely-convergent series are also displayed by multiple series:

(4)

If a multiple series is absolutely convergent, it is convergent, for example, both in the sense of spherical and of rectangular partial sums, and its sums will be the same in both cases. If the multiple series (4) is absolutely convergent, the iterated series

(5)

is absolutely convergent, i.e. all series obtained by successive summation of terms of the series (4) by the indices are absolutely convergent; moreover, the sums of the multiple series (4) and the iterated series (5) are identical with the sum of any simple series formed by all terms of the series (4).

If the terms of the series (1) are elements of some Banach space with norm , the series (1) is said to be absolutely convergent if the series

is absolutely convergent. The properties of absolutely-convergent series of numbers discussed above can also be generalized to include the case of absolutely-convergent series of elements of a Banach space. In particular, (the partial sums of) an absolutely-convergent series in a Banach space converge(s) in that space. The concept of an absolutely-convergent series is applied in a similar manner to multiple series in a Banach space.

References

[1] V.A. Il'in, E.G. Poznyak, "Fundamentals of mathematical analysis" , 1–2 , MIR (1982) (Translated from Russian)
[2] L.D. Kudryavtsev, "Mathematical analysis" , 1 , Moscow (1973) (In Russian)
[3] S.M. Nikol'skii, "A course of mathematical analysis" , 1 , MIR (1977) (Translated from Russian)


Comments

A useful Western reference is [a1].

References

[a1] T.M. Apostol, "Mathematical analysis" , Addison-Wesley (1969)
How to Cite This Entry:
Absolutely convergent series. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Absolutely_convergent_series&oldid=27095
This article was adapted from an original article by L.D. Kudryavtsev (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article