Cardinality in a paraconsistent and paracomplete set theory

Abstract

This paper develops a rich theory of cardinality in the paraconsistent and paracomplete set theory BZFC, where sets can be inconsistent (A such that ``x∈ A'' is both true and false for some x) or incomplete (A such that ``x∈ A'' is neither true nor false for some x). We carefully analyze what it means for two potentially incomplete or inconsistent sets to have ``the same size'', construct the corresponding cardinal numbers, and develop the basic theory of cardinal arithmetic. A surprising result is that the cardinality of any set can be expressed as a linear combination of three fundamental cardinal numbers with classical cardinals as coefficients. In that sense, our cardinal numbers form a three-dimensional space over the usual cardinals, much like how the complex numbers form a two-dimensional space over the reals.