An introduction to varieties in weighted projective space

Weighted projective space arises when we consider the usual geometric definition for projective space and allow for non-trivial weights. On its own, this extra freedom gives rise to more than enough interesting phenomena, but it is the fact that weighted projective space arises naturally in the context of classical algebraic geometry that can be surprising. Using the Riemann-Roch theorem to calculate l(E,nD) where E is a non-singular cubic curve inside projective 2-space and D=p is a point in E we obtain a non-negatively graded ring R(E) by taking the direct sum of the L(E,nD) for n greater than or equal to 0. This gives rise to an embedding of E inside the weighted projective space P(1,2,3). To understand a space it is always a good idea to look at the things inside it. The main content of this paper is the introduction and explanation of many basic concepts of weighted projective space and its varieties. There are already many brilliant texts on the topic but none of them are aimed at an audience with only an undergraduate's knowledge of mathematics. This paper hopes to partially fill this gap whilst maintaining a good balance between 'interesting' and 'simple'. The main result of this paper is a reasonably simple degree-genus formula for non-singular 'sufficiently general' plane curves, proved using not much more than the Riemann-Hurwitz formula.