On the axiomatics of projective and affine geometry in terms of line intersection

Abstract: By providing explicit definitions, we show that in both affine and projective geometry of dimension ≥ 3, considered as first-order theories axiomatized in terms of lines as the only variables, and the binary line-intersection predicate as primitive notion, non-intersection of two lines can be positively defined in terms of line-intersection. (2000): 51A05, 51A15, 03C40, 03B30. Mathematics Subject Classification

“…Axiomatization for higher dimensions is given in [23]. Affine spaces, except those where all lines are of size 2, can be axiomatized by means of line intersection as a sole primitive notion [13]. In view of [29] binary line intersection is sufficient to express the geometry of spine spaces.…”

Coplanarity of lines in projective and polar Grassmann spaces

“…Axiomatization for higher dimensions is given in [23]. Affine spaces, except those where all lines are of size 2, can be axiomatized by means of line intersection as a sole primitive notion [13]. In view of [29] binary line intersection is sufficient to express the geometry of spine spaces.…”

Coplanarity of lines in projective and polar Grassmann spaces

“…plane Euclidean geometry as theory of tangency of circles, in [19], Euclidean and hyperbolic geometries as theories of tangency of spheres, see [11]). Among others, intersection of lines was proved to be such a notion for affine and projective geometries (of suitable dimensions, see [5], [12]). In every case a problem appears, which relations on this new universe are sufficient for the geometry in question; in particular: can we find a single sufficient binary relation?…”

Euclidean geometry of orthogonality of subspaces

“…Thus the sets of the form S(a) are distinguished within C. 2For at least 3-dimensional affine spaces and for at least 4-dimensional projective spaces the result is well known as it is a result of a search for an adequate system of primitive notions for line geometry (cf [8,13,12,9,22]…”

Possible primitive notions for geometry of spine spaces