Riemann-Hurwitz formula: Difference between revisions

Revision as of 01:08, 16 February 2007

In algebraic geometry The Riemann-Hurwitz formula states that if C,D are smooth algebraic curves, and $f:C\to D$ is a finite map of degree $d$ then the number of branch points of $f$ , denote by $B$ , is given by

$2(genus(C)-1)=2d(genus(D)-1)+B$ .

Over a field in general characteristic, this theorem is a consequence of the Riemann-Roch theorem. Over the complex numbers, the theorem can be proved by choosing a triangulation of the curve $D$ such that all the branch points of the map are nodes of the tringulation. One then consider the pullback of the tringulation to the curve $C$ and compute the Euler characteritics of both curves.

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	Over a [[field]] in general [[characteristic]], this theorem is a consequence of the [[Riemann-Roch theorem]]. Over the [[complex numbers]], the theorem can be proved by choosing a [[triangulation]] of the curve <math>D</math> such that all the branch points of the map are nodes of the tringulation. One then consider the [[pullback]] of the tringulation to the curve <math>C</math> and compute the [[Euler characteritics]] of both curves.		Over a [[field]] in general [[characteristic]], this theorem is a consequence of the [[Riemann-Roch theorem]]. Over the [[complex numbers]], the theorem can be proved by choosing a [[triangulation]] of the curve <math>D</math> such that all the branch points of the map are nodes of the tringulation. One then consider the [[pullback]] of the tringulation to the curve <math>C</math> and compute the [[Euler characteritics]] of both curves.

			[[Category:Mathematics]]

Riemann-Hurwitz formula: Difference between revisions

Revision as of 01:08, 16 February 2007

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