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Cauchy's limit theorem

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Cauchy's limit theorem, named after the French mathematician Augustin-Louis Cauchy, describes a property of converging sequences. It states that for a converging sequence the sequence of the arithmetic means of its first members converges against the same limit as the original sequence, that is with implies .[1][2] The theorem was found by Cauchy in 1821,[1] subsequently a number of related and generalized results were published, in particular by Otto Stolz (1885) and Ernesto Cesàro (1888).[3]

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If the arithmetic means in Cauchy's limit theorem are replaced by weighted arithmetic means those converge as well. More precisely for sequence with and a sequence of positive real numbers with one has .[2][1]

This result can be used to derive the Stolz–Cesàro theorem, a more general result of which Cauchy's limit theorem is a special case.[2]

For the geometric means of a sequence a similar result exists. That is for a sequence with and one has .[2][1]

The arithmetic means in Cauchy's limit theorem are also called Cesàro means. While Cauchy's limit theorem implies that for a convergent series its Cesàro means converge as well, the converse is not true. That is the Cesàro means may converge while the original sequence does not. Applying the latter fact on the partial sums of a series allows for assigning real values to certain divergent series and leads to the concept of Cesàro summation and summable series. In this context Cauchy's limit theorem can be generalised into the Silverman–Toeplitz theorem.[1][4]

Proof

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Let and such that for all . Due to there exists a with for all .

Now for all the above yields:

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References

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  1. ^ a b c d e Konrad Knopp: Infinite Sequences and Series. Dover, 1956, pp. 33-36
  2. ^ a b c d e Harro Heuser: Lehrbuch der Analysis – Teil 1, 17th edition, Vieweg + Teubner 2009, ISBN 9783834807779, pp. 176-179 (German)
  3. ^ J. Marshall Ash, Allan Berele, Stefan Catoiu: Plausible and Genuine Extensions of L’Hospital’s Rule. In: Mathematics Magazine, Vol. 85, No. 1, Februar 2012, pp. 52–60, doi:10.4169/math.mag.85.1.52 (JSTOR 10.4169/math.mag.85.1.52)
  4. ^ Johann Boos: Classical and Modern Methods in Summability. Oxford University Press, 2000, ISBN 9780198501657, p. 9

Further reading

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  • Sen-Ming: Note on Cauchy's Limit Theorem. In: The American Mathematical Monthly, Vol. 57, No. 1 (Jan., 1950), pp. 28–31 (JSTOR)
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