On elementary circle-geometry in Cayley–Klein planes

Abstract: This contribution is sort of an addendum to a recently published paper on circle-geometries in Cayley-Klein planes, see Martini and Spirova (Publicationes Mathematicae Debrecen 72:371-383, 2008b), as it deals with further generalisations and extensions of the author's results to circle-geometries in all Cayley-Klein planes. The main methods in this paper are the interpretation of planar figures in space and the dualizing according to the duality principle of projective spaces. There are, in principle, only th… Show more

“…The set of dual numbers is denoted by D. Pure dual numbers have the form ǫb and are zero divisors in the ring D. This can be seen easily since the dual unit ǫ commutes with real numbers (ǫa)(ǫb) = ǫ 2 ab = 0. In [16] dual numbers were efficiently used to extend several well-known theorems from elementary geometry to affine Cayley-Klein planes, see also [24].…”

Kinematic mappings for Cayley–Klein geometries via Clifford algebras

“…The set of dual numbers is denoted by D. Pure dual numbers have the form ǫb and are zero divisors in the ring D. This can be seen easily since the dual unit ǫ commutes with real numbers (ǫa)(ǫb) = ǫ 2 ab = 0. In [16] dual numbers were efficiently used to extend several well-known theorems from elementary geometry to affine Cayley-Klein planes, see also [24].…”

Kinematic mappings for Cayley–Klein geometries via Clifford algebras