2021
DOI: 10.1007/s11787-021-00291-4
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Axiomatization of Some Basic and Modal Boolean Connexive Logics

Abstract: Boolean connexive logic is an extension of Boolean logic that is closed under Modus Ponens and contains Aristotle’s and Boethius’ theses. According to these theses (i) a sentence cannot imply its negation and the negation of a sentence cannot imply the sentence; and (ii) if the antecedent implies the consequent, then the antecedent cannot imply the negation of the consequent and if the antecedent implies the negation of the consequent, then the antecedent cannot imply the consequent. Such a logic was first int… Show more

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Cited by 10 publications
(6 citation statements)
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“…Imposing this condition on R results in the validity of the formula ¬((A → B) ∧ ¬B ∧ ¬(¬A → ¬B))), a formula that is not valid with the adoption of the conditions (a1)-(b2) on R. A classically equivalent schema was used in [10] for an axiomatization of Boolean connexive logic with closure under negation. This condition is also independent of (a1), (a2), (b1) and (b2) and lets us pass from the appropriate models for connexive logics to axiomatics and vice versa.…”
Section: • R Satisfies (B1) If and Only If For Anymentioning
confidence: 99%
“…Imposing this condition on R results in the validity of the formula ¬((A → B) ∧ ¬B ∧ ¬(¬A → ¬B))), a formula that is not valid with the adoption of the conditions (a1)-(b2) on R. A classically equivalent schema was used in [10] for an axiomatization of Boolean connexive logic with closure under negation. This condition is also independent of (a1), (a2), (b1) and (b2) and lets us pass from the appropriate models for connexive logics to axiomatics and vice versa.…”
Section: • R Satisfies (B1) If and Only If For Anymentioning
confidence: 99%
“…Note also that the 1-model has the property that any formula belonging to the maximally non-contradictory set with respect to which a given canonical model is determined is true in the 1-model. Fact 6.5 (Klonowski, 2021a). Let X be an axiomatic system and Y ∈ Max(X).…”
Section: Completeness Theoremmentioning
confidence: 99%
“…The proof of completeness of axiomatic systems obtained by applying the α algorithm that we will present constitutes a modification of Henkinstyle completeness proofs for zero-order logic. Such proofs, for various types of related logic, were presented in [Epstein, 1979[Epstein, , 1990Klonowski, 2019Klonowski, , 2021a]. 1 All of those cases, however, made use of the fact of the expressivity of the relating relation in the language of the analysed logic.…”
Section: Introductionmentioning
confidence: 99%
“…• Boolean connexive logic [see Jarmużek and Malinowski, 2019a,b;Malinowski and Palczewski, 2021;Klonowski, 2018Klonowski, , 2021],…”
Section: The 1st Workhop On Relating Logicmentioning
confidence: 99%