Commutative Algebra/Spectrum with Zariski topology: Difference between revisions

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On ${\displaystyle \mathrm{Spec}R}$, we will define a topology, turning ${\displaystyle \mathrm{Spec}R}$ into a topological space. This topology will be called Zariski topology, although only Alexander Grothendieck gave the definition in the above generality.

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The sets ${\displaystyle V(S)}$, where ${\displaystyle S}$ ranges over subsets of ${\displaystyle R}$, satisfy the following equations:

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Proof:

The first two items are straightforward. For the third, we use induction on ${\displaystyle n}$. ${\displaystyle n=1}$ is clear; otherwise, the direction ${\displaystyle \subseteq }$ is clear, and the other direction follows from lemma 14.20.${\displaystyle ◻}$

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