A linear space is a basic structure in

incidence geometry In mathematics, incidence geometry is the study of incidence structures. A geometric structure such as the Euclidean plane is a complicated object that involves concepts such as length, angles, continuity, betweenness, and incidence. An ''incide ...

. A linear space consists of a set of elements called points, and a set of elements called lines. Each line is a distinct subset of the points. The points in a line are said to be incident with the line. Any two lines may have no more than one point in common. Intuitively, this rule can be visualized as the property that two straight lines never intersect more than once. Linear spaces can be seen as a generalization of projective and affine planes, and more broadly, of 2-

(v,k,1)

block designs, where the requirement that every block contains the same number of points is dropped and the essential structural characteristic is that 2 points are incident with exactly 1 line. The term ''linear space'' was coined by Paul Libois in 1964, though many results about linear spaces are much older.

Definition

Let ''L'' = (''P'', ''G'', ''I'') be an

incidence structure In mathematics, an incidence structure is an abstract system consisting of two types of objects and a single relationship between these types of objects. Consider the points and lines of the Euclidean plane as the two types of objects and ignore al ...

, for which the elements of ''P'' are called points and the elements of ''G'' are called lines. ''L'' is a ''linear space'' if the following three axioms hold: *(L1) two distinct points are incident with exactly one line. *(L2) every line is incident to at least two distinct points. *(L3) ''L'' contains at least two distinct lines. Some authors drop (L3) when defining linear spaces. In such a situation the linear spaces complying to (L3) are considered as ''nontrivial'' and those who don't as ''trivial''.

Examples

The regular Euclidean plane with its points and lines constitutes a linear space, moreover all affine and projective spaces are linear spaces as well. The table below shows all possible nontrivial linear spaces of five points. Because any two points are always incident with one line, the lines being incident with only two points are not drawn, by convention. The trivial case is simply a line through five points. In the first illustration, the ten lines connecting the ten pairs of points are not drawn. In the second illustration, seven lines connecting seven pairs of points are not drawn. A linear space of ''n'' points containing a line being incident with ''n'' − 1 points is called a ''near pencil''. (See

pencil A pencil () is a writing or drawing implement with a solid pigment core in a protective casing that reduces the risk of core breakage, and keeps it from marking the user's hand. Pencils create marks by physical abrasion, leaving a trail ...

)

Properties

The De Bruijn–Erdős theorem shows that in any finite linear space

S=(,, \textbf)

which is not a single point or a single line, we have

, \mathcal,  \leq , \mathcal,

References

* . * Albrecht Beutelspacher: ''Einführung in die endliche Geometrie II''. Bibliographisches Institut, 1983, , p. 159 (German) * J. H. van Lint, R. M. Wilson: ''A Course in Combinatorics''. Cambridge University Press, 1992, {{isbn, 0-521-42260-4. p. 188 * L. M. Batten, Albrecht Beutelspacher: ''The Theory of Finite Linear Spaces''. Cambridge University Press, Cambridge, 1992. Incidence geometry

Definition

Examples

Properties

See also

References