Erdős–Fuchs theorem: Difference between revisions

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In mathematics, in the area of combinatorial number theory, the Erdős–Fuchs theorem is a statement about the number of ways that numbers can be represented as a sum of two elements of a given set, stating that the average order of this number cannot be close to being a linear function.

The theorem is named after Paul Erdős and Wolfgang Heinrich Johannes Fuchs.

Statement

Let A be a subset of the natural numbers and r(n) denote the number of ways that a natural number n can be expressed as the sum of two elements of A (taking order into account). We consider the average

R(n)=(r(1)+r(2)+\cdots +r(n))/n.

The theorem states that

R(n)=C+O\left(n^{-3/4-\epsilon }\right)

cannot hold unless C=0.

References

P. Erdős; W.H.J. Fuchs (1956). "On a Problem of Additive Number Theory". Journal of the London Mathematical Society 31 (1): 67-73.

Donald J. Newman (1998). Analytic number theory, 31-38. ISBN 0-387-98308-2.

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 ==References==
 * {{cite journal | title=On a Problem of Additive Number Theory | author=P. Erdős | authorlink=Paul Erdős | coauthors=W.H.J. Fuchs | journal=Journal of the London Mathematical Society | year=1956 | volume=31 | issue=1 | pages=67-73 }}
-* {{cite book | author=Donald J. Newman | title=Analytic number theory | series=[[Graduate Texts in Mathematics|GTM]] | volume=177 | year=1998 | isbn=0-387-98308-2 | pages=31-38 }}
+* {{cite book | author=Donald J. Newman | title=Analytic number theory | series=[[Graduate Texts in Mathematics|GTM]] | volume=177 | year=1998 | isbn=0-387-98308-2 | pages=31-38 }}[[Category:Suggestion Bot Tag]]

Erdős–Fuchs theorem: Difference between revisions

Latest revision as of 06:01, 13 August 2024

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