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Material conditional

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Material conditional
IMPLY
Venn diagram of Material conditional
Definition
Truth table
Logic gate
Normal forms
Disjunctive
Conjunctive
Zhegalkin polynomial
Post's lattices
0-preservingno
1-preservingyes
Monotoneno
Affineno
Self-dualno

The material conditional (also known as material implication) is an operation commonly used in logic. When the conditional symbol is interpreted as material implication, a formula is true unless is true and is false. Material implication can also be characterized inferentially by modus ponens, modus tollens, conditional proof, and classical reductio ad absurdum.[citation needed]

Material implication is used in all the basic systems of classical logic as well as some nonclassical logics. It is assumed as a model of correct conditional reasoning within mathematics and serves as the basis for commands in many programming languages. However, many logics replace material implication with other operators such as the strict conditional and the variably strict conditional. Due to the paradoxes of material implication and related problems, material implication is not generally considered a viable analysis of conditional sentences in natural language.

Notation

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In logic and related fields, the material conditional is customarily notated with an infix operator .[1] The material conditional is also notated using the infixes and .[2] In the prefixed Polish notation, conditionals are notated as . In a conditional formula , the subformula is referred to as the antecedent and is termed the consequent of the conditional. Conditional statements may be nested such that the antecedent or the consequent may themselves be conditional statements, as in the formula .

History

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In Arithmetices Principia: Nova Methodo Exposita (1889), Peano expressed the proposition "If , then " as Ɔ with the symbol Ɔ, which is the opposite of C.[3] He also expressed the proposition as Ɔ .[a][4][5] Hilbert expressed the proposition "If A, then B" as in 1918.[1] Russell followed Peano in his Principia Mathematica (1910–1913), in which he expressed the proposition "If A, then B" as . Following Russell, Gentzen expressed the proposition "If A, then B" as . Heyting expressed the proposition "If A, then B" as at first but later came to express it as with a right-pointing arrow. Bourbaki expressed the proposition "If A, then B" as in 1954.[6]

Definitions

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Semantics

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From a classical semantic perspective, material implication is the binary truth functional operator which returns "true" unless its first argument is true and its second argument is false. This semantics can be shown graphically in a truth table such as the one below. One can also consider the equivalence .

Truth table

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The truth table of :

FFT
FTT
TFF
TTT

The logical cases where the antecedent A is false and AB is true, are called "vacuous truths". Examples are ...

Deductive definition

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Material implication can also be characterized deductively in terms of the following rules of inference.[citation needed]

Unlike the semantic definition, this approach to logical connectives permits the examination of structurally identical propositional forms in various logical systems, where somewhat different properties may be demonstrated. For example, in intuitionistic logic, which rejects proofs by contraposition as valid rules of inference, is not a propositional theorem, but the material conditional is used to define negation.[clarification needed]

Formal properties

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When disjunction, conjunction and negation are classical, material implication validates the following equivalences:

  • Contraposition:
  • Import-export:
  • Negated conditionals:
  • Or-and-if:
  • Commutativity of antecedents:
  • Left distributivity:

Similarly, on classical interpretations of the other connectives, material implication validates the following entailments:

  • Antecedent strengthening:
  • Vacuous conditional:
  • Transitivity:
  • Simplification of disjunctive antecedents:

Tautologies involving material implication include:

  • Reflexivity:
  • Totality:
  • Conditional excluded middle:

Discrepancies with natural language

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Material implication does not closely match the usage of conditional sentences in natural language. For example, even though material conditionals with false antecedents are vacuously true, the natural language statement "If 8 is odd, then 3 is prime" is typically judged false. Similarly, any material conditional with a true consequent is itself true, but speakers typically reject sentences such as "If I have a penny in my pocket, then Paris is in France". These classic problems have been called the paradoxes of material implication.[7] In addition to the paradoxes, a variety of other arguments have been given against a material implication analysis. For instance, counterfactual conditionals would all be vacuously true on such an account.[8]

In the mid-20th century, a number of researchers including H. P. Grice and Frank Jackson proposed that pragmatic principles could explain the discrepancies between natural language conditionals and the material conditional. On their accounts, conditionals denote material implication but end up conveying additional information when they interact with conversational norms such as Grice's maxims.[7][9] Recent work in formal semantics and philosophy of language has generally eschewed material implication as an analysis for natural-language conditionals.[9] In particular, such work has often rejected the assumption that natural-language conditionals are truth functional in the sense that the truth value of "If P, then Q" is determined solely by the truth values of P and Q.[7] Thus semantic analyses of conditionals typically propose alternative interpretations built on foundations such as modal logic, relevance logic, probability theory, and causal models.[9][7][10]

Similar discrepancies have been observed by psychologists studying conditional reasoning, for instance, by the notorious Wason selection task study, where less than 10% of participants reasoned according to the material conditional. Some researchers have interpreted this result as a failure of the participants to conform to normative laws of reasoning, while others interpret the participants as reasoning normatively according to nonclassical laws.[11][12][13]

See also

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Conditionals

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Notes

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  1. ^ Note that the horseshoe symbol Ɔ has been flipped to become a subset symbol ⊂.

References

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  1. ^ a b Hilbert, D. (1918). Prinzipien der Mathematik (Lecture Notes edited by Bernays, P.).
  2. ^ Mendelson, Elliott (2015). Introduction to Mathematical Logic (6th ed.). Boca Raton: CRC Press/Taylor & Francis Group (A Chapman & Hall Book). p. 2. ISBN 978-1-4822-3778-8.
  3. ^ Jean van Heijenoort, ed. (1967). From Frege to Gödel: A Source Book in Mathematical Logic, 1879–1931. Harvard University Press. pp. 84–87. ISBN 0-674-32449-8.
  4. ^ Michael Nahas (25 Apr 2022). "English Translation of 'Arithmetices Principia, Nova Methodo Exposita'" (PDF). GitHub. p. VI. Retrieved 2022-08-10.
  5. ^ Mauro ALLEGRANZA (2015-02-13). "elementary set theory – Is there any connection between the symbol ⊃ when it means implication and its meaning as superset?". Mathematics Stack Exchange. Stack Exchange Inc. Answer. Retrieved 2022-08-10.
  6. ^ Bourbaki, N. (1954). Théorie des ensembles. Paris: Hermann & Cie, Éditeurs. p. 14.
  7. ^ a b c d Edgington, Dorothy (2008). "Conditionals". In Edward N. Zalta (ed.). The Stanford Encyclopedia of Philosophy (Winter 2008 ed.).
  8. ^ Starr, Will (2019). "Counterfactuals". In Zalta, Edward N. (ed.). The Stanford Encyclopedia of Philosophy.
  9. ^ a b c Gillies, Thony (2017). "Conditionals" (PDF). In Hale, B.; Wright, C.; Miller, A. (eds.). A Companion to the Philosophy of Language. Wiley Blackwell. pp. 401–436. doi:10.1002/9781118972090.ch17. ISBN 9781118972090.
  10. ^ von Fintel, Kai (2011). "Conditionals" (PDF). In von Heusinger, Klaus; Maienborn, Claudia; Portner, Paul (eds.). Semantics: An international handbook of meaning. de Gruyter Mouton. pp. 1515–1538. doi:10.1515/9783110255072.1515. hdl:1721.1/95781. ISBN 978-3-11-018523-2.
  11. ^ Oaksford, M.; Chater, N. (1994). "A rational analysis of the selection task as optimal data selection". Psychological Review. 101 (4): 608–631. CiteSeerX 10.1.1.174.4085. doi:10.1037/0033-295X.101.4.608. S2CID 2912209.
  12. ^ Stenning, K.; van Lambalgen, M. (2004). "A little logic goes a long way: basing experiment on semantic theory in the cognitive science of conditional reasoning". Cognitive Science. 28 (4): 481–530. CiteSeerX 10.1.1.13.1854. doi:10.1016/j.cogsci.2004.02.002.
  13. ^ von Sydow, M. (2006). Towards a Flexible Bayesian and Deontic Logic of Testing Descriptive and Prescriptive Rules (doctoralThesis). Göttingen: Göttingen University Press. doi:10.53846/goediss-161. S2CID 246924881.

Further reading

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