Let $L$ be the complex line ${ax+by+c=0}$ in $\mathbb{C}^{2}$,and let $C$ be the algebraic curve ${{f(x,y)=0}}$, where $f$ is an irreducible polynomial of degree $d$. Prove that $C\bigcap L$ contains at most $d$ points unless $C=L$.
The intersection of algebraic curves
-1
$\begingroup$
algebraic-geometry
-
0No, not allowed. – 2012-11-21
1 Answers
4
Assume that $a\neq 0.$ For any point $(x,y)\in C\cap L$ we will have $x=-\dfrac{by+c}{a}$ and so $g(y)=f(-\frac{by+c}{a},y)=0.$ But $g(y)$ is a degree $d$ polynomial in one variable over $\Bbb C,$ so ...
-
0Oh,yeah,thanks a lot. – 2012-11-21