Ancestral relation


In mathematical logic, the ancestral relation of a binary relation R is its transitive closure, however defined in a different way, see below.
Ancestral relations make their first appearance in Frege's Begriffsschrift. Frege later employed them in his Grundgesetze as part of his definition of the finite cardinals. Hence the ancestral was a key part of his search for a logicist foundation of arithmetic.

Definition

The numbered propositions below are taken from his Begriffsschrift and recast in contemporary notation.
A property P is called R-hereditary if, whenever x is P and xRy holds, then y is also P:
Frege defined b to be an R-ancestor of a, written aR*b, if b has every R-hereditary property that all objects x such that aRx have:
The ancestral is a transitive relation:
Let the notation I denote that R is functional :
If R is functional, then the ancestral of R is what nowadays is called connected:

Relationship to transitive closure

The Ancestral relation is equal to the transitive closure of. Indeed, is transitive, contains , and finally, is contained in . See also Boolos's book below, page 8.

Discussion

Principia Mathematica made repeated use of the ancestral, as does Quine's Mathematical Logic.
However, it is worth noting that the ancestral relation cannot be defined in first-order logic. It is controversial whether second-order logic with standard semantics is really "logic" at all. Quine famously claimed that it was really 'set theory in sheep's clothing.' In his books setting out formal systems related to PM and capable of modelling significant portions of Mathematics, namely - and in order of publication - 'A System of Logistic', 'Mathematical Logic' and 'Set Theory and its Logic', Quine's ultimate view as to the proper cleavage between logical and extralogical systems appears to be that once axioms that allow incompleteness phenomena to arise are added to a system, the system is no longer purely logical.