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Difference between revisions of "Non-Pascalean geometry"

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A geometry with a non-commutative multiplication. As a consequence of the fact that in affine geometry the property of commutativity is equivalent to the [[Pascal theorem|Pascal theorem]], the name non-Pascalean geometry is usually attached to a geometry in which the following theorem fails to hold: Suppose that on each of two intersecting straight lines three points $A,B,C$ and $A_1,B_1,C_1$ are given, other than the point of intersection of the lines; if $CB_1$ is parallel to $BC_1$ and $CA_1$ is parallel to $AC_1$, then $BA_1$ is parallel to $AB_1$. This is sometimes called Pappus' theorem; it is a special case of the theorem of Pascal in the theory of conic sections (namely, when the conic degenerates to a pair of straight lines).
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A geometry with a non-commutative multiplication. As a consequence of the fact that in affine geometry the property of commutativity is equivalent to the [[Pascal theorem|Pascal theorem]], the name non-Pascalean geometry is usually attached to a geometry in which the following theorem fails to hold: Suppose that on each of two intersecting straight lines three points $A,B,C$ and $A_1,B_1,C_1$ are given, other than the point of intersection of the lines; if $CB_1$ is parallel to $BC_1$ and $CA_1$ is parallel to $AC_1$, then $BA_1$ is parallel to $AB_1$. This is sometimes called Pappus' theorem; it is a special case of the theorem of Pascal in the theory of conic sections (namely, when the conic degenerates to a pair of straight lines): cf [[Pappus axiom]].
  
 
The possibility of constructing a non-Pascalean geometry follows from the fact that Pascal's theorem is not a consequence of the axioms of incidence, order and parallelism when the metric axioms are excluded from Hilbert's system (cf. [[Hilbert system of axioms|Hilbert system of axioms]]). On the other hand, the existence of a non-Pascalean geometry is also connected with the possibility of constructing a geometry over a non-commutative skew-field, that is, a non-Pascalean geometry is at the same time a [[Non-Archimedean geometry|non-Archimedean geometry]].
 
The possibility of constructing a non-Pascalean geometry follows from the fact that Pascal's theorem is not a consequence of the axioms of incidence, order and parallelism when the metric axioms are excluded from Hilbert's system (cf. [[Hilbert system of axioms|Hilbert system of axioms]]). On the other hand, the existence of a non-Pascalean geometry is also connected with the possibility of constructing a geometry over a non-commutative skew-field, that is, a non-Pascalean geometry is at the same time a [[Non-Archimedean geometry|non-Archimedean geometry]].
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====References====
 
====References====
<table><TR><TD valign="top">[1]</TD> <TD valign="top">  D. Hilbert,  "Grundlagen der Geometrie" , Springer  (1913)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top">  L. Bieberbach,  "Einleitung in die höhere Geometrie" , Teubner  (1933)</TD></TR><TR><TD valign="top">[3]</TD> <TD valign="top">  L.A. Skornyakov,  "Projective planes"  ''Uspekhi Mat. Nauk'' , '''6''' :  6  (1951)  pp. 112–154  (In Russian)</TD></TR></table>
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<table>
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<TR><TD valign="top">[1]</TD> <TD valign="top">  D. Hilbert,  "Grundlagen der Geometrie" , Springer  (1913)</TD></TR>
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<TR><TD valign="top">[2]</TD> <TD valign="top">  L. Bieberbach,  "Einleitung in die höhere Geometrie" , Teubner  (1933)</TD></TR>
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<TR><TD valign="top">[3]</TD> <TD valign="top">  L.A. Skornyakov,  "Projective planes"  ''Uspekhi Mat. Nauk'' , '''6''' :  6  (1951)  pp. 112–154  (In Russian)</TD></TR>
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</table>
  
  
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====References====
 
====References====
<table><TR><TD valign="top">[a1]</TD> <TD valign="top">  H.S.M. Coxeter,  "Twelve geometric esays" , Univ. Illinois Press  (1968)  pp. Chapt. 1</TD></TR></table>
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<table>
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<TR><TD valign="top">[a1]</TD> <TD valign="top">  H.S.M. Coxeter,  "Twelve geometric esays" , Univ. Illinois Press  (1968)  pp. Chapt. 1</TD></TR>
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</table>

Latest revision as of 17:16, 31 March 2018

A geometry with a non-commutative multiplication. As a consequence of the fact that in affine geometry the property of commutativity is equivalent to the Pascal theorem, the name non-Pascalean geometry is usually attached to a geometry in which the following theorem fails to hold: Suppose that on each of two intersecting straight lines three points $A,B,C$ and $A_1,B_1,C_1$ are given, other than the point of intersection of the lines; if $CB_1$ is parallel to $BC_1$ and $CA_1$ is parallel to $AC_1$, then $BA_1$ is parallel to $AB_1$. This is sometimes called Pappus' theorem; it is a special case of the theorem of Pascal in the theory of conic sections (namely, when the conic degenerates to a pair of straight lines): cf Pappus axiom.

The possibility of constructing a non-Pascalean geometry follows from the fact that Pascal's theorem is not a consequence of the axioms of incidence, order and parallelism when the metric axioms are excluded from Hilbert's system (cf. Hilbert system of axioms). On the other hand, the existence of a non-Pascalean geometry is also connected with the possibility of constructing a geometry over a non-commutative skew-field, that is, a non-Pascalean geometry is at the same time a non-Archimedean geometry.

The significance of non-Pascalean geometry stems from the role of Pascal's theorem in research connected with establishing the independence of axiom systems and logical connections between propositions.

References

[1] D. Hilbert, "Grundlagen der Geometrie" , Springer (1913)
[2] L. Bieberbach, "Einleitung in die höhere Geometrie" , Teubner (1933)
[3] L.A. Skornyakov, "Projective planes" Uspekhi Mat. Nauk , 6 : 6 (1951) pp. 112–154 (In Russian)


Comments

The phrase "(non-) Pascalean geometry" is obsolete: it has been replaced by "(non-) Pappian geometry" .

References

[a1] H.S.M. Coxeter, "Twelve geometric esays" , Univ. Illinois Press (1968) pp. Chapt. 1
How to Cite This Entry:
Non-Pascalean geometry. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Non-Pascalean_geometry&oldid=43051
This article was adapted from an original article by L.A. Sidorov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article