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Line 1: {{Short description\|Formal statement in logic}} In [[logic]], a '''strict conditional''' (symbol: <math>\Box</math>, or ⥽) is a conditional governed by a [[modal operator]], that is, a [[logical connective]] of [[modal logic]]. It is [[logical equivalence\|~~logical~~logically equivalent]] to the [[material conditional]] of [[classical logic]], combined with the [[Logical truth\|necessity]] operator from [[modal logic]]. For any two [[proposition]]s ~~<math>~~''p~~</math>~~'' and ~~<math>~~''q~~</math>~~'', the [[well-formed formula\|formula]] ~~<math>~~''p'' ~~\rightarrow~~→ ''q~~</math>~~'' says that ~~<math>~~''p~~</math>~~'' [[material conditional\|materially implies]] ~~<math>~~''q~~</math>~~'' while <math>\Box (p \rightarrow q)</math> says that ~~<math>~~''p~~</math>~~'' [[logical consequence\|strictly implies]] ~~<math>~~''q~~</math>~~''.<ref>[[Graham Priest]], ''[[An Introduction to Non-Classical Logic\|An Introduction to Non-Classical Logic: From if to is]]'', ~~2<sup>nd</sup>~~2nd ed, Cambridge University Press, 2008, {{ISBN \|0-521-85433-4}}, [~~http~~https://books.google.com/books?id=rMXVbmAw3YwC&pg=PA72 p. 72.]</ref> Strict conditionals are the result of [[C. I. Lewis\|Clarence Irving Lewis]]'s attempt to find a conditional for logic that can adequately express [[indicative conditional]]s in natural language.<ref>{{cite book\|last1=Lewis\|first1=C.I.\|author1-link=C. I. Lewis\|last2=Langford\|first2=C.H.\|author2-link=Cooper Harold Langford\|year=1959\|orig-year=1932\|title=Symbolic Logic\|edition=2\|publisher=[[Dover Publications]]\|isbn=0-486-60170-6\|page=124}}</ref><ref>Nicholas Bunnin and Jiyuan Yu (eds), ''The Blackwell Dictionary of Western Philosophy'', Wiley, 2004, {{ISBN \|1-4051-0679-4}}, "strict implication," [~~http~~https://books.google.com/books?id=OskKWI1YA7AC&pg=PA660 p. 660.].</ref> They have also been used in studying [[Molinism\|Molinist]] theology.<ref>Jonathan L. Kvanvig, "Creation, Deliberation, and Molinism," in ''Destiny and Deliberation: Essays in Philosophical Theology'', Oxford University Press, 2011, {{ISBN \|0-19-969657-8}}, [~~http~~https://books.google.com/books?id=nQliRGPVpTwC&pg=PA127 p. 127–136.].</ref> ==Avoiding paradoxes== The strict conditionals may avoid [[paradoxes of material implication]]. The following statement, for example, is not correctly formalized by material implication: : If Bill Gates ~~had~~ graduated in ~~Medicine~~medicine, then Elvis never died. This condition should clearly be false: the degree of Bill Gates has nothing to do with whether Elvis is still alive. However, the direct encoding of this formula in [[classical logic]] using material implication leads to: : Bill Gates graduated in ~~Medicine~~medicine ~~<math>\rightarrow</math>~~→ Elvis never died. This formula is true because awhenever ~~formula~~the ~~<math>~~antecedent ''A ~~\rightarrow B</math>~~'' is ~~true~~false, ~~whenever~~a ~~the~~formula ~~antecedent <math>~~''A~~</math>~~'' → ''B'' is ~~false~~true. Hence, this formula is not an adequate translation of the original sentence. An encoding using the strict conditional is: : <math>\Box</math> (Bill Gates graduated in ~~Medicine~~medicine ~~<math>\rightarrow</math>~~→ Elvis never died.). In modal logic, this formula means (roughly) that, in every possible world in which Bill Gates graduated in ~~Medicine~~medicine, Elvis never died. Since one can easily imagine a world where Bill Gates is a ~~Medicine~~medicine graduate and Elvis is dead, this formula is false. Hence, this formula seems to be a correct translation of the original sentence. ==Problems== Although the strict conditional is much closer to being able to express natural language conditionals than the material conditional, it has its own problems with [[consequent]]s that are [[Logical truth\|necessarily true]] (such as 2 + 2 = 4) or antecedents that are necessarily false.<ref>Roy A. Sorensen, ''A Brief History of the Paradox: Philosophy and the labyrinths of the mind'', Oxford University Press, 2003, {{ISBN \|0-19-515903-9}}, [~~http~~https://books.google.com/books?id=PB8I0kHeKy4C&pg=PA105 p. 105.].</ref> The following sentence, for example, is not correctly formalized by a strict conditional: : If Bill Gates graduated in ~~Medicine~~medicine, then 2 + 2 = 4. Using strict conditionals, this sentence is expressed as: : <math>\Box</math> (Bill Gates graduated in ~~Medicine~~medicine ~~<math>\rightarrow</math>~~→ 2 + 2 = 4) In modal logic, this formula means that, in every possible world where Bill Gates graduated in medicine, it holds that 2 + 2 = 4. Since 2 + 2 is equal to 4 in all possible worlds, this formula is true, although it does not seem that the original sentence should be. A similar situation arises with 2 + 2 = 5, which is necessarily false: : If 2 + 2 = 5, then Bill Gates graduated in ~~Medicine~~medicine. Some logicians view this situation as indicating that the strict conditional is still unsatisfactory. Others have noted that the strict conditional cannot adequately express [[counterfactual ~~conditionals~~conditional]]s,<ref>Jens S. Allwood, Lars-Gunnar Andersson, and Östen Dahl, ''Logic in Linguistics'', Cambridge University Press, 1977, {{ISBN \|0-521-29174-7}}, [~~http~~https://books.google.com/books?id=hXIpFPttDjgC&pg=PA120 p. 120.].</ref> and that it does not satisfy certain logical properties.<ref>Hans Rott and Vítezslav Horák, ''Possibility and Reality: Metaphysics and Logic'', ontos verlag, 2003, {{ISBN \|3-937202-24-2}}, [~~http~~https://books.google.com/books?id=ov9kN3HyltAC&pg=PA271 p. 271.].</ref> In particular, the strict conditional is [[Transitive relation\|transitive]], while the counterfactual conditional is not.<ref>John Bigelow and Robert Pargetter, ''Science and Necessity'', Cambridge University Press, 1990, {{ISBN \|0-521-39027-3}}, [~~http~~https://books.google.com/books?id=O-onBdR7TPAC&pg=PA116 p. 116.].</ref> Some logicians, such as [[Paul Grice]], have used [[conversational implicature]] to argue that, despite apparent difficulties, the material conditional is just fine as a translation for the natural language 'if...then...'. Others still have turned to [[relevance logic]] to supply a connection between the antecedent and consequent of provable conditionals. ==Constructive logic== In a [[Constructive logic\|constructive]] setting, the symmetry between ⥽ and <math>\Box</math> is broken, and the two connectives can be studied independently. Constructive strict implication can be used to investigate [[interpretability]] of [[Heyting arithmetic]] and to model [[arrow (computer science)\|arrows]] and guarded [[recursion (computer science)\|recursion]] in computer science.<ref>{{cite journal \| last1=Litak \|first1 = Tadeusz \| last2=Visser \|first2 = Albert \| year = 2018 \| title = Lewis meets Brouwer: Constructive strict implication \| journal = [[Indagationes Mathematicae]] \| doi = 10.1016/j.indag.2017.10.003 \| arxiv = 1708.02143 \| volume = 29 \| issue = 1 \| pages = 36–90 \|s2cid = 12461587 }}</ref> ==See also== * [[~~Material~~Corresponding conditional]]▼ * [[Counterfactual conditional]] * [[Dynamic semantics]] * [[Import-Export (logic)\|Import-Export]] * [[Indicative conditional]] ▲* [[Material conditional]] * [[Logical consequence]] * [[~~Corresponding~~Material conditional]] ==References== Line 45 ⟶ 63: ==Bibliography== Edgington, Dorothy, 2001, "Conditionals," in Goble, Lou, ed., ''The Blackwell Guide to Philosophical Logic''. Blackwell. For an introduction to non-classical logic as an attempt to find a better translation of the conditional, see: *[[Graham Priest\|Priest, Graham]], 2001. ''An Introduction to Non-Classical Logic''. Cambridge Univ. Press. For an extended philosophical discussion of the issues mentioned in this article, see: *[[Mark Sainsbury (philosopher)\|Mark Sainsbury]], 2001. ''Logical Forms''. Blackwell Publishers. [[Jonathan Bennett (philosopher)\|Jonathan Bennett]], 2003. ''A Philosophical Guide to Conditionals''. Oxford Univ. Press. {{Logic}} {{Formal semantics}} [[Category:Conditionals]] ~~[[Category:Propositional calculus]]~~ [[Category:Modal logic]]▼ [[Category:Logical connectives]] ▲[[Category:Modal logic]] [[Category:Necessity]] ~~[[es:Condicional estricto]]~~ [[Category:Formal semantics (natural language)]] ~~[[fr:Implication stricte]]~~ ~~[[zh:严格条件]]~~