Difference between revisions of "Prime Ideals"
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The ideal <math>I</math> is prime if and only if <math>R/I</math> is an [[Integral Domains|integral domain]]. | The ideal <math>I</math> is prime if and only if <math>R/I</math> is an [[Integral Domains|integral domain]]. | ||
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Latest revision as of 01:12, 8 March 2023
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A prime ideal of a ring \(R \) is proper ideal \(P \) such that whenever \(xy\in P \) for \(x,y \in R \), \(x\in P \) or \(y \in P \).
An ideal \(P \) is prime if and only if \( R\backslash P\) is closed under multiplication.
Maximal implies prime but not conversely.
An ideal \(P\) is prime if and only if \(R \backslash P \) is closed under multiplication.
If \(R\) is a domain, \(S\) is a ring and \(f : R \to S\) is a ring homomorphism, then \(\text{Ker}(f)\) is a prime ideal.
The ideal \(I\) is prime if and only if \(R/I\) is an integral domain.
