Ringschluss
In mathematics, a Ringschluss (German: Beweis durch Ringschluss, lit. 'Proof by ring-inference') is a mathematical proof technique where the equivalence of several statements can be proven without having to prove all pairwise equivalences directly.
In order to prove that the statements are each pairwise equivalent, proofs are given for the implications , , , and .[1][2]
The pairwise equivalence of the statements then results from the transitivity of the material conditional.
Example
[edit]For the proofs are given for , , and . The equivalence of and results from the chain of conclusions that are no longer explicitly given:
- . . This leads to:
- . . This leads to:
That is .
Motivation
[edit]The technique saves writing effort above all. By dispensing with the formally necessary chain of conclusions, only direct proofs need to be provided for instead of direct proofs. The difficulty for the mathematician is to find a sequence of statements that allows for the most elegant direct proofs possible.
See also
[edit]- The term should not be confused with the invalid circular reasoning.
References
[edit]- ^ Plaue, Matthias; Scherfner, Mike (2019-02-11). Mathematik für das Bachelorstudium I: Grundlagen und Grundzüge der linearen Algebra und Analysis [Mathematics for the Bachelor's degree I: Fundamentals and basics of linear algebra and analysis] (in German). Springer-Verlag. p. 26. ISBN 978-3-662-58352-4.
- ^ Struckmann, Werner; Wätjen, Dietmar (2016-10-20). Mathematik für Informatiker: Grundlagen und Anwendungen [Mathematics for Computer Scientists: Fundamentals and Applications] (in German). Springer-Verlag. p. 28. ISBN 978-3-662-49870-5.