Going up theorem: Difference between revisions

Latest revision as of 16:22, 12 May 2008

Statement

This result is sometimes called going up and sometimes lying over and going up. It is a stronger version of lying over.

Suppose $f:R\to S$ is an injective homomorphism of commutative unital rings, such that $S$ is an integral extension of $R$ . Suppose $P$ is a prime ideal of $R$ , and $Q_{1}$ is an ideal of $S$ such that $f^{-1}(Q_{1})\subset P$ . Then, there exists a prime ideal $Q$ containing $Q_{1}$ , such that $f^{-1}(Q)=P$ .

Proof

This follows from lying over, applied to the injective map $R/f^{-1}(Q_{1})\to S/Q_{1}$ .

Revision as of 20:09, 2 February 2008 (view source) Vipul (talk \| contribs) (New page: ==Statement== This result is sometimes called ''going up'' and sometimes ''lying over and going up''. It is a stronger version of lying over. Suppose <math>f:R \to S</math> is an inj...)	Latest revision as of 16:22, 12 May 2008 (view source) Vipul (talk \| contribs) m (1 revision)
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