- #1
peteryellow
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Let A be semiprime ring and e a non-zero idempotent.
If Ae is a minimal left ideal then eAe is a division ring.
Proof:
Suppose that Ae is a minimal left ideal and that exe is different from 0 for x in A.
Then $Aexe \subset Ae$ since Ae is an ideal and since Ae is minimal hence Aexe = Ae.
Thus there exists a in A such that e = aexe and we get that
(eae)(exe)=eae^2xe=eaexe = e^2 =e.
The only thing I don't understand is that why is e = aexe?
We have that Aexe = Ae so I will say that aexe =ae? but then the rest of proof will not hold?
Any suggestions? Thanks.
If Ae is a minimal left ideal then eAe is a division ring.
Proof:
Suppose that Ae is a minimal left ideal and that exe is different from 0 for x in A.
Then $Aexe \subset Ae$ since Ae is an ideal and since Ae is minimal hence Aexe = Ae.
Thus there exists a in A such that e = aexe and we get that
(eae)(exe)=eae^2xe=eaexe = e^2 =e.
The only thing I don't understand is that why is e = aexe?
We have that Aexe = Ae so I will say that aexe =ae? but then the rest of proof will not hold?
Any suggestions? Thanks.
