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TOPOLOGY


Orientable surface

The genus of a connected, Orientable Surface is an Integer representing the maximum number of cuttings along closed simple Curve s without rendering the resultant manifold disconnected. It is equal to the number of Handles on it. Alternatively, it can be defined for a closed surface in terms of the Euler Characteristic χ, via the relationship ''χ = 2 − 2g'', where ''g'' is the genus.

For instance:
  • A Sphere , Disc and Annulus all have genus zero.

  • A Torus has genus one, as does the surface of a coffee mug with a handle.



Non-orientable surface

The ( Non-orientable ) genus of a connected, non-orientable closed Surface is a positive Integer representing the number of Cross-caps attached to a Sphere . Alternatively, it can be defined for a closed surface in terms of the Euler Characteristic χ, via the relationship ''χ = 2 − k'', where '''k''' is the non-orientable genus.

For instance:


Knot

The Genus of a Knot ''K'' is defined as the minimal genus of all Seifert Surface s for ''K''.


Handlebody

The genus of a 3-dimensional Handlebody is an integer representing the maximum number of cuttings along embedded Disks without rendering the resultant manifold disconnected. It is equal to the number of handles on it.

For instance:
  • A Ball has genus zero.

  • A solid torus D^2 imes S^1 has genus one.



GRAPH THEORY


The genus of a Graph is the minimal integer ''n'' such that the graph can be drawn without crossing itself on a sphere with ''n'' handles (i.e. an oriented surface of genus ''n''). Thus, a Planar Graph has genus 0, because it can be drawn on a sphere without self-crossing.

The non-orientable genus of a Graph is the minimal integer ''n'' such that the graph can be drawn without crossing itself on a sphere with ''n'' cross-caps (i.e. a non-orientable surface of (non-orientable) genus ''n'').

In Topological Graph Theory there are several definitions of the genus of a Group . Arthur T. White introduced the following concept. The Genus Of A Group G is the minimum genus of any of (connected, undirected) Cayley Graph s for G.


ALGEBRAIC GEOMETRY


There is a definition of genus of any Algebraic Curve ''C''.
When the field of definition for ''C'' is the Complex Number s, and ''C'' has no Singular Points , then that definition coincides with the topological definition applied to the Riemann Surface of ''C'' (its Manifold of complex points). The definition of Elliptic Curve from algebraic geometry is ''non-singular curve of genus 1''.


SEE ALSO