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Horsten, Leon [Author]; Welch, Philip [Author]

Gödel's disjunction : the scope and limits of mathematical knowledge - [First edition]

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  • Media type: E-Book
  • Title: Gödel's disjunction : the scope and limits of mathematical knowledge
  • Contributor: Horsten, Leon [VerfasserIn]; Welch, Philip [VerfasserIn]
  • imprint: Oxford: Oxford University Press, 2016
  • Published in: Oxford scholarship online
  • Issue: First edition
  • Extent: 1 Online-Ressource (x, 277 Seiten); Illustrationen
  • Language: English
  • DOI: 10.1093/acprof:oso/9780198759591.001.0001
  • ISBN: 9780191820373
  • Identifier:
  • RVK notation: SG 700 : Philosophie und Mathematik
    SK 130 : Logik und Grundlagen, Metamathematik,
  • Keywords: Reichweite > Wissen > Mathematik > Gödelscher Unvollständigkeitssatz
    Reichweite > Wissen > Mathematik > Gödelscher Unvollständigkeitssatz
  • Origination:
  • Footnote: Literaturangaben
    Hier auch später erschienene, unveränderte Nachdrucke
  • Description: The logician Kurt Godel in 1951 established a disjunctive thesis about the scope and limits of mathematical knowledge: either the mathematical mind is equivalent to a Turing machine (i.e., a computer), or there are absolutely undecidable mathematical problems. In the second half of the twentieth century, attempts have been made to arrive at a stronger conclusion. In particular, arguments have been produced by the philosopher J.R. Lucas and by the physicist and mathematician Roger Penrose that intend to show that the mathematical mind is more powerful than any computer. These arguments, and counterarguments to them, have not convinced the logical and philosophical community. The reason for this is an insufficiency if rigour in the debate. The contributions in this volume move the debate forward by formulating rigorous frameworks and formally spelling out and evaluating arguments that bear on Godel's disjunction in these frameworks. The contributions in this volume have been written by world leading experts in the field.--

    The logician Kurt Godel in 1951 established a disjunctive thesis about the scope and limits of mathematical knowledge: either the mathematical mind is equivalent to a Turing machine (i.e., a computer), or there are absolutely undecidable mathematical problems. In the second half of the twentieth century, attempts have been made to arrive at a stronger conclusion. In particular, arguments have been produced by the philosopher J.R. Lucas and by the physicist and mathematician Roger Penrose that intend to show that the mathematical mind is more powerful than any computer. These arguments, and counterarguments to them, have not convinced the logical and philosophical community. The reason for this is an insufficiency if rigour in the debate. The contributions in this volume move the debate forward by formulating rigorous frameworks and formally spelling out and evaluating arguments that bear on Godel's disjunction in these frameworks. The contributions in this volume have been written by world leading experts in the field.