320 research outputs found
On varieties of cylindric algebras with applications to logic
AbstractMnα, Mgα, and Bgα denote the classes of minimal, monadic-generated, and binary-generated cylindric algebras of dimension α respectively, and EqK denotes the equational theory of the class K of algebras. In Theorem 2, we characterize those classes K ⊆ Mgα, α > 2, for which EqK is recursively enumerable (r.e.). As a corollary we obtain that EqMnα is not r.e. iff α ⩾ ω, EqMgα is not r.e. iff α > 2, EqBgα is r.e. for α ⩾ ω and EqMnα = EqMgα iff (α = 0 or α ⩾ ω). These results solve Problems 4.11, 4.12 and the problem in item (1) on p. (ii) of the introduction of Part II of Henkin-Monk-Tarski [11] and continue the investigations started in Monk [22]. We discuss at length the logical meaning and consequences in the introduction and in Section 2. The proofs of the above results rely on the fact that the set of satisfiable Diophantine equations is not decidable. We also show that the equational theory of monadic-generated relation algebras is not r.e. Some further results can be found in Theorems 5 and 6: in Theorem 5 we give a single equation that characterizes being of characteristic 0 in Mgω, in Theorem 6 we investigate how big Mgα is. We do some investigations concerning the lattice of varieties of CAα's, α ⩾ ω
On Tarski's axiomatic foundations of the calculus of relations
It is shown that Tarski's set of ten axioms for the calculus of relations is
independent in the sense that no axiom can be derived from the remaining
axioms. It is also shown that by modifying one of Tarski's axioms slightly, and
in fact by replacing the right-hand distributive law for relative
multiplication with its left-hand version, we arrive at an equivalent set of
axioms which is redundant in the sense that one of the axioms, namely the
second involution law, is derivable from the other axioms. The set of remaining
axioms is independent. Finally, it is shown that if both the left-hand and
right-hand distributive laws for relative multiplication are included in the
set of axioms, then two of Tarski's other axioms become redundant, namely the
second involution law and the distributive law for converse. The set of
remaining axioms is independent and equivalent to Tarski's axiom system
On Logical Analysis of Relativity Theories
The aim of this paper is to give an introduction to our axiomatic logical
analysis of relativity theories.Comment: 19 pages, 1 figure
Using Isabelle/HOL to verify first-order relativity theory
Logicians at the Rényi Mathematical Institute in Budapest have spent several years developing versions of relativity theory (special, general, and other variants) based wholly on first-order logic, and have argued in favour of the physical decidability, via exploitation of cosmological phenomena, of formally unsolvable questions such as the Halting Problem and the consistency of set theory. As part of a joint project, researchers at Sheffield have recently started generating rigorous machine-verified versions of the Hungarian proofs, so as to demonstrate the soundness of their work. In this paper, we explain the background to the project and demonstrate a first-order proof in Isabelle/HOL of the theorem “no inertial observer can travel faster than light”. This approach to physical theories and physical computability has several pay-offs, because the precision with which physical theories need to be formalised within automated proof systems forces us to recognise subtly hidden assumptions
Atoms in infinite dimensional free sequence-set algebras
A. Tarski proved that the m-generated free algebra of ,
the class of cylindric algebras of dimension , contains exactly
zero-dimensional atoms, when is a finite cardinal and is an
arbitrary ordinal. He conjectured that, when is infinite, there are no
more atoms. This conjecture has not been confirmed or denied yet. In this
article, we show that Tarski's conjecture is true if is
replaced by , , but the -generated
free algebra is atomless
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