Consider M , an A -module where A is a ring. It defines &#x03BC;<!-- μ --> f

res2bfitjq

res2bfitjq

Answered question

2022-05-28

Consider M, an A-module where A is a ring. It defines μ f : M M for the map m f m, where f A. Then the text claims that f μ f is a ring homomorphism A End ( M ) from A to the noncommutative ring of endomorphisms of M.
So, am I correct to think that in this case End ( M ) is a noncommutative ring because A is not commutative?
End ( M ) seems to commutative if A is commutative.

Answer & Explanation

thoumToofwj

thoumToofwj

Beginner2022-05-29Added 16 answers

No, not necessarily. There isn’t a connection.
You can have E n d ( M ) noncommutative and A commutative ( A = Z and M = C 2 × C 2 )
You can also have A noncommutative and E n d ( M ) commutative (for this you can take a ring A which isn’t commutative, but which has a unique maximal right ideal I such that A / I is commutative, and let M = A / I.)
hawwend8u

hawwend8u

Beginner2022-05-30Added 6 answers

You can start by proving that:
μ g μ f = μ g f ,   f , g A
and use that M M is a A-module to argue that:
( a 1 a 2 ) m = a 1 ( a 2 m ) ,   m M , a 1 , a 2 A

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