Radical of an ideal: Difference between revisions

Definition

Let ${\displaystyle R}$ be a commutative unital ring and ${\displaystyle I}$ be an ideal in ${\displaystyle R}$. The radical of ${\displaystyle I}$, sometimes denoted ${\displaystyle {\sqrt {I}}}$, is defined in the following equivalent ways:

• It is the set of all ${\displaystyle a\in R}$ for which some positive power of ${\displaystyle a}$ lies inside ${\displaystyle I}$
• It is the smallest radical ideal containing ${\displaystyle I}$
• It is the intersection of all prime ideals containing ${\displaystyle I}$
• Under the quotient map ${\displaystyle R\to R/I}$, it is the inverse image of the nilradical of ${\displaystyle R/I}$

${\displaystyle I}$ is a radical ideal iff ${\displaystyle {\sqrt {I}}=I}$.

Equivalence of definitions

After quotienting out, the equivalence of definitions follows from the equivalence of various definitions of the nilradical.