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Let $A=\left\{(x,y)\in\mathbb{R}^2 : x\neq 0, \ y=\frac{1}{x}\right\}$. Prove that $A$ is closed.

So far in the most difficult examples of this type I had to use a trick with inverse-image under a continuous function. Can I also use that in this case? How?

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Yes you can, with $f(x,y)=xy$.

[Added] A little more detail: $f$ is continuous (which should be well-known) and $\{1\}$ is closed in $\mathbb{R}$, so you only need to show that $A = f^{-1}[\{1\}]$ to see $A$ is closed: if $(x,y) \in A$ then in particular $y = \frac{1}{x}$, so $xy = 1$ and so $(x,y)$ is in the inverse image, while if $(x,y)$ is in the inverse image, we know $f(x,y) = xy = 1$ which implies that $x$ (and $y$) are $\neq 0$, and so we can divide both sides by $x$ to see $y =\frac{1}{x}$, so $(x,y) \in A$.

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    @JonasMeyer Sure I guess you are right. I do however remember a student who solved something like "Find a solution to $dy/dx+y=0$" with $y(t)= e^t +t^5$, he got credits (no extra though) and a little talk... :)2012-05-31