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Abel–Dini–Pringsheim theorem

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In calculus, the Abel–Dini–Pringsheim theorem is a convergence test which constructs from a divergent series a series that diverges more slowly, or similarly for convergent series.[1]: §IX.39  Consequently, for every convergence test based on a particular series there is a series about which the test is inconclusive.

Definitions

For divergent series

Suppose that is a sequence of positive real numbers such that the series

diverges to infinity. Let denote the th partial sum. The Abel–Dini–Pringsheim theorem for divergent series states that the following conditions hold.

  • For all we have
  • If also , then

Consequently, the series

converges if and diverges if .

Proof

Proof of the first part. By the assumption is nondecreasing and diverges to infinity. So, for all there is such that

Therefore

and hence is not a Cauchy sequence. This implies that the series

is divergent.

Proof of the second part. If , we have for sufficiently large and thus . So, it suffices to consider the case . For all we have the inequality

This is because, letting

we have

Therefore,

Proof of the third part. The sequence is nondecreasing and diverges to infinity. By the Stolz-Cesaro theorem,

For convergent series

Suppose that is a sequence of positive real numbers such that the series

converges to a finite number. Let denote the th remainder of the series. According to the Abel–Dini–Pringsheim theorem for convergent series, the following conditions hold.

  • For all we have
  • If also then

In particular, the series

is convergent when , and divergent when .

Equivalence

Applying the Abel–Dini–Pringsheim theorem for divergent series to the series with partial sum

yields the Abel–Dini–Pringsheim theorem for convergent series.[2] Therefore, the two forms of the theorems are in fact equivalent.

Examples

The series

is divergent with the th partial sum being . By the Abel–Dini–Pringsheim theorem, the series

converges when and diverges when . Since converges to 0, we have the asymptotic approximation

Now, consider the divergent series

thus found. Apply the Abel–Dini–Pringsheim theorem but with partial sum replaced by asymptotically equivalent sequence . (It is not hard to verify that this can always be done.) Then we may conclude that the series

converges when and diverges when . Since converges to 0, we have

History

Niels Henrik Abel proved a weak form of the first part of the theorem (for divergent series).[3] Ulisse Dini proved the complete form and a weak form of the second part.[4] Alfred Pringsheim proved the second part of the theorem.[5] The third part is due to Ernesto Cesàro.[6]

References

  1. ^ Knopp, Konrad (1951). Theory and application of infinite series. Translated by Young, R. C. H. Translated from the 2nd edition and revised in accordance with the fourth by R. C. H. Young. (2 ed.). London–Glasgow: Blackie & Son. Zbl 0042.29203.
  2. ^ Hildebrandt, T. H. (1942). "Remarks on the Abel-Dini theorem". American Mathematical Monthly. 49 (7): 441–445. doi:10.2307/2303268. ISSN 0002-9890. JSTOR 2303268. MR 0007058. Zbl 0060.15508.
  3. ^ Abel, Niels Henrik (1828). "Note sur le mémoire de Mr. L. Olivier No. 4. du second tome de ce journal, ayant pour titre "remarques sur les séries infinies et leur convergence." Suivi d'une remarque de Mr. L. Olivier sur le même objet". Journal für die Reine und Angewandte Mathematik (in French). 3: 79–82. doi:10.1515/crll.1828.3.79. ISSN 0075-4102. MR 1577677. Zbl 003.0093cj. {{cite journal}}: Check |zbl= value (help)
  4. ^ Dini, Ulisse (1868). "Sulle serie a termini positivi". Giornale di Matematiche (in Italian). 6: 166–175. JFM 01.0082.01.
  5. ^ Pringsheim, Alfred (1890). "Allgemeine Theorie der Divergenz und Convergenz von Reihen mit positiven Gliedern". Mathematische Annalen (in German). 35 (3): 297–394. doi:10.1007/BF01443860. ISSN 0025-5831. JFM 21.0230.01.
  6. ^ Cesàro, Ernesto (1890). "Nouvelles remarques sur divers articles concernant la théorie des séries". Nouvelles annales de mathématiques: Journal des candidats aux écoles polytechnique et normale, Serie 3 (in French). 9: 353–367. ISSN 1764-7908. JFM 22.0247.02.