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Polish School of Mathematics

The Polish School of Mathematics was the mathematics community that flourished in Poland in the 20th century, particularly during the Interbellum between World Wars I and II.

Lviv mathematicians, 1930.
Lviv mathematicians, 1930.

Overview

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The Polish School of Mathematics subsumed:

Nomenclature

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Poland's mathematicians provided a name to Polish notation and Polish space.

Background

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It has been debated what stimulated the exceptional efflorescence of mathematics in Poland after World War I. Important preparatory work had been done by the Polish "Positivists" following the disastrous January 1863 Uprising. The Positivists extolled science and technology, and popularized slogans of "organic work" and "building from the foundations." In the 20th century, mathematics was a field of endeavor that could be successfully pursued even with the limited resources that Poland commanded in the interbellum period.

Historical Influences

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Over the centuries, Polish mathematicians have influenced the course of history. Copernicus used mathematics to buttress his revolutionary heliocentric theory. Four hundred years later, Marian Rejewski — subsequently assisted by fellow mathematician-cryptologists Jerzy Różycki and Henryk Zygalski — in December 1932 first broke the German Enigma machine cipher, thus laying the foundations for British World War II reading of Enigma ciphers ("Ultra"). After the war, Stanisław Ulam showed Edward Teller how to construct a practicable hydrogen bomb.

See also

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References

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  • Kazimierz Kuratowski (1980) A Half Century of Polish Mathematics: Remembrances and Reflections, Oxford, Pergamon Press, ISBN 0-08-023046-6.
  • Roman Murawski (2014) The Philosophy and Mathematics of Logic in the 1920s and 1930s in Poland, Maria Kantor translator, Birkhäuser ISBN 978-3-0348-0830-9