Back to Search Start Over

Tarskian classical relevant logic

Authors :
Maddux, Roger D
Publication Year :
2020

Abstract

The Tarskian classical relevant logic TR arises from Tarski's work on the foundations of the calculus of relations and on first-order logic restricted to finitely many variables, presented by Tarski and Givant their book, A Formalization of Set Theory without Variables, and summarized in first nine sections. TR is closely related to the well-known logic KR. Every formula of relevance logic has a corresponding sentence in Tarski's extended first-order logic of binary relations with operators on the relation symbols. A formula is in TR (by definition), or in KR (by a theorem), if and only if its corresponding sentence can be proved in first-order logic, using at most four variables, from the assumptions that all binary relations are dense and, for TR, commute under composition, or, for KR, are symmetric. The vocabulary of TR is the same as the classical relevant logic CR$^*$ proposed by Meyer and Routley but TR properly contains CR$^*$. The frames characteristic for TR are the ones that are characteristic for CR$^*$ and satisfy an extra frame condition. There are formulas in TR (but not in CR$^*$) that correspond to this frame condition and provide a counterexample to a theorem of T. Kowalski. The frames characteristic for TR, or KR, are the ones whose complex algebras are integral dense relation algebras that are commutative, or symmetric, respectively. For both classes, the number of isomorphism types grows like the number of isomorphism types of ternary relations. Asymptotic formulas are obtained for both classes. Similar results apply to a hierarchy of logics defined by the number of variables used in the first-order proofs of their corresponding sentences.

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....6bef2861818f1ccc4d80254491dffd95