Non-Aristotelian logic

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The term non-Aristotelian logic, sometimes shortened to null-A, means any non-classical system of logic which rejects one of Aristotle's premises.

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History

Nicolai A. Vasiliev since 1910 and Jan Łukasiewicz used it to refer to his own work . Alfred Korzybski carried the term into his system of General Semantics in 1933 (citing Łukasiewicz), and science fiction writer A. E. van Vogt later helped popularize it. Korzybski focused on the use of three or more truth values in the new systems of logic, although he connected this to his own rejection of Aristotle's principle of identity. Following Łukasiewicz's early work, Korzybski and later proponents of General Semantics associate these truth values with probabilities and the use of scientific induction. Łukasiewicz later seemed more cautious about this connection.

It has been highly questioned whether what has been called "non-Aristotelian logic" is actually contrary to Aristotle, even when that is what it claims to be. Martin Gardner wrote of Korzybski that he "never tired of knocking over 'Aristotelian' habits of thought, in spite of the fact that what he called Aristotelian was a straw structure which bore almost no resemblance to the Greek philosopher's manner of thinking."<ref>Gardner, Martin (1957). Fads and Fallacies In the Name of Science. New York: Dover Publications.</ref>

While Łukasiewicz seems to have spent more time on three-valued logic than any other system, he said that one could keep increasing the number of truth values indefinitely. Thus, he wrote: if 0 is interpreted as falsehood, 1 as truth, and other numbers in the interval 0-1 as the degrees of probability corresponding to various possibilities, a many-valued logic is obtained which is expansion of three-valued logic and differs from the latter in certain details — J. Lukasiewicz, "Interpretacja liczbowa teorii zdan" (A numerical interpretation of the theory of propositions), Ruch Filozoficzny 7 (1922/23), pp. 92-93; Eng. tr. in J. Lukasiewicz, Selected Works, North-Holland, Amsterdam 1970, pp. 129-130 (tr. by O. Wojtasiewicz).

Nicolai A. Vasiliev in 1910 rejected the law of contradiction as well as law of the excluded middle and proposed a logic he called imaginary which is tolerant to contradiction.

Hans Reichenbach described a system of logic that he explicitly linked with probability theory. He called his probability logic a generalization of two-valued logic. Reichenbach also suggested applying a three-valued logic to quantum mechanics. His probability logic does not receive much attention from modern logicians.

Lotfi Zadeh developed a system of "fuzzy logic" using a range of truth values from 0 to 1, but distinguished it sharply from probability theory.

Alternative terms for these logics in common academic usage include deviant logic and multi-valued logic (see Haack, 'Philosophy of Logic', 1980). Not all non-classical logics fall into this class, e.g. Modal logic is a non-classical logic which, however, has only two truth values.

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Use in science fiction

The concept of non-Aristotelian logic was used by A. E. van Vogt as the central theme in his The World of Null-A novels, based on his interest in Alfred Korzybski's General Semantics, stories tinged by van Vogt's reflections upon revelations of police state conditions enforced by totalitarian regimes after World War II.

Van Vogt generally shortened non-Aristotelian logic to null-A in his description of logic systems incorporating three or more values, to render relatively 'subjective' conclusions from inductive logic, rather than relying strictly on the binary, deductive reasoning, which is generally accepted as yielding more 'objective' results and capable of providing 'scientific proof'. The null-A concept as depicted by van Vogt is complementary to Aristotle's system of two-valued, true/false logic, i.e., "A is either B, or it is not B."

Van Vogt's portrayals of General Semantics in sci-fi stories (wherein heroic characters struggled against incrementally stemwinding tactics used by minions of authoritarian entities), was somewhat different from its originator's, as Korzybski developed and described General Semantics not as a 'logic', but as a non-Aristotelian system of evaluation. On the other hand, van Vogt also depicted General Semantics as a method of evaluation used to analyze the reasoning of others. Protagonists in van Vogt's science fiction novels typically used null-A reasoning in almost dream-like settings to outwit villains who relied almost exclusively upon decision-tree, algorithmic reasoning, akin to the use of Aristotelian logic.

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See also

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Some developers of non-Aristotelian logics

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Notes

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External links

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