Kurpaska, Sławomir and Tyszka, Apoloniusz (2019) Semi-formally stated open problems on computable sets X={n \in N: \phi(n)}, where \phi(n) has the same intuitive meaning for every n \in N and the finiteness (infiniteness) of X remains conjectured. [Preprint]

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Abstract

Let b=((24!)!)!, and let P_{n^2+1} denote the set of all primes of the form n^2+1. Let M denote the set of all positive multiples of elements of the set P_{n^2+1} \cap (b,\infty). The set X={0,...,b} \cup M satisfies the following conditions: (1) card(X) is greater than a huge positive integer and it is conjectured that X is infinite, (2) we do not know any algorithm deciding the finiteness of X, (3) a known and short algorithm for every n \in N decides whether or not n \in X, (4) a known and short algorithm returns an integer n such that X is infinite if and only if X contains an element greater than n. The following problem is open: define a set X \subseteq N such that X satisfies conditions (1)-(4) and a known and simple formula \phi(x) satisfies X={n \in N: \phi(n)}, where \phi(n) has the same intuitive meaning for every n \in N (5). The statements \phi(n) in condition (5) have always the same intuitive meaning, if the predicate \phi(x) expresses a natural property, the term propounded by the philosopher David Lewis (1941-2001). Let f(3)=4, and let f(n+1)=f(n)! for every integer n \geq 3. For an integer n \geq 3, let \Psi_n denote the following statement: if a system of equations S \subseteq {x_i!=x_{i+1}: 1 \leq i \leq n-1} \cup {x_i \cdot x_j=x_{j+1}: 1 \leq i \leq j \leq n-1} has only finitely many solutions in positive integers x_1,...,x_n, then each such solution (x_1,...,x_n) satisfies x_1,...,x_n \leq f(n). We prove that for every statement \Psi_n the bound f(n) cannot be decreased. The author's guess is that the statements \Psi_3,...,\Psi_9 are true. We prove that the statement \Psi_9 implies that the set X of all non-negative integers n whose number of digits belongs to P_{n^2+1} satisfies conditions (1)-(5).

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Item Type:	Preprint
Creators:	Creators Email ORCID Kurpaska, Sławomir rtkurpas@cyf-kr.edu.pl 0000-0003-1885-4568 Tyszka, Apoloniusz rttyszka@cyf-kr.edu.pl 0000-0002-2770-5495
Additional Information:	a shorter version was submitted to Logic and Logical Philosophy
Keywords:	computable set X \subseteq N whose finiteness remains conjectured; computable set X \subseteq N whose infiniteness remains conjectured; David Lewis's notion of a natural property; intuitive meaning of a mathematical formula; Zenkin's super-induction
Subjects:	Specific Sciences > Mathematics > Foundations Specific Sciences > Mathematics > Logic
Depositing User:	Apoloniusz Tyszka
Date Deposited:	02 Jan 2020 23:45
Last Modified:	02 Jan 2020 23:45
Item ID:	16775
Subjects:	Specific Sciences > Mathematics > Foundations Specific Sciences > Mathematics > Logic
Date:	31 December 2019
URI:	https://philsci-archive.pitt.edu/id/eprint/16775

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