Abstract (may include machine translation)
We introduce a two-valued and a three-valued truth-valuational substitutional semantics for the Quantified Argument Calculus (Quarc). We then prove that the 2-valid arguments are identical to the 3-valid ones with strict-to-tolerant validity. Next, we introduce a Lemmon-style Natural Deduction system and prove the completeness of Quarc on both two- and three-valued versions, adapting Lindenbaum’s Lemma to truth-valuational semantics. We proceed to investigate the relations of three-valued Quarc and the Predicate Calculus (PC). Adding a logical predicate T to Quarc, true of all singular arguments, allows us to represent PC quantification in Quarc and translate PC into Quarc, preserving validity. Introducing a weak existential quantifier into PC allows us to translate Quarc into PC, also preserving validity. However, unlike the translated systems, neither extended system can have a sound and complete proof system with Cut, supporting the claim that these are basically different calculi.
Original language | English |
---|---|
Pages (from-to) | 281-320 |
Number of pages | 40 |
Journal | Studia Logica |
Volume | 111 |
Issue number | 2 |
DOIs | |
State | Published - 25 Nov 2022 |
Keywords
- Completeness
- Lindenbaum’s lemma
- Quantified argument calculus
- Strict-to-tolerant validity
- Substitutional quantification
- Three-valued semantics
- Truth-valuational semantics