Talk:Annihilator (ring theory)

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Untitled

Latest comment: 16 years ago1 comment1 person in discussion

Annihilators in ring theory and linear algebra need separate treatments I think. Geometry guy 00:39, 22 May 2007 (UTC)Reply

Confusing tag?

Latest comment: 12 years ago1 comment1 person in discussion

Please indicate which sections are the most confusing, thanks :) Rschwieb (talk) 01:41, 25 June 2011 (UTC)Reply

Article improvements

• Expand the definitions section to include the definition of annihilator for commutative rings
• Also create subsections for left and right annihilators for noncommutative rings
• Partition references by commutative and non-commutative references
• Include references to noncommutative rings

Noncommutative properties

• page 31 proposition 3.6 - http://math.uga.edu/~pete/noncommutativealgebra.pdf
• starting page 81 - poset properties of left and right annihilators - https://pages.uoregon.edu/anderson/rings/COMPLETENOTES.PDF

Noncommutative examples

• Include examples of annihilator for noncommutative rings
• In matrix algebras, take a nilpotent matrix and find the annihilator of it
• Include D-module examples: https://web.archive.org/web/20200513191733/http://cocoa.dima.unige.it/conference/cocoaviii/ucha.pdf

Additional references

• A Term of Commutative Algebra - https://web.mit.edu/18.705/www/13Ed.pdf
• NONCOMMUTATIVE RINGS - http://www-math.mit.edu/~etingof/artinnotes.pdf

this article is full of lies

Latest comment: 3 years ago3 comments1 person in discussion

what the heck happened here?!?! 70.171.155.43 (talk) 20:36, 30 January 2021 (UTC)Reply

Here is the first lie excised from the article:

The prototypical example for an annihilator over a commutative ring can be understood by taking the quotient ring ${\displaystyle R/I}$  and considering it as a ${\displaystyle R}$ -module. Then, the annihilator of ${\displaystyle R/I}$  is the ideal ${\displaystyle I}$  since all of the ${\displaystyle i\in I}$  act via the zero map on ${\displaystyle R/I}$ . This shows how the ideal ${\displaystyle I}$  can be thought of as the set of torsion elements in the base ring ${\displaystyle R}$  for the module ${\displaystyle R/I}$ . Also, notice that any element ${\displaystyle r\in R}$  that isn't in ${\displaystyle I}$  will have a non-zero action on the module ${\displaystyle R/I}$ , implying the set ${\displaystyle R-I}$  can be thought of as the set of orthogonal elements to the ideal ${\displaystyle I}$ . — Preceding unsigned comment added by 70.171.155.43 (talk) 20:41, 30 January 2021 (UTC)Reply

This is the second one, a false proof of the first:

In particular, if ${\displaystyle M=R}$  then the annihilator of ${\displaystyle R/I}$  can be found explicitly using

${\displaystyle {\begin{aligned}V({\text{Ann}}_{R}(R/I))&=V((0))\cap V(I)\\&=V(I)\end{aligned}}}$ 

Hence the annihilator of ${\displaystyle R/I}$  is just ${\displaystyle I}$ . 70.171.155.43 (talk) 20:46, 30 January 2021 (UTC)Reply