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Do any of you have any helpful hints?  That would be lovely.
 
Do any of you have any helpful hints?  That would be lovely.
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GF(p^n) are the only fields we need to worry about, so we just need to find the smallest field of this form that has exactly 6 subfields.  Since GF(p^n) has exactly one subfield per divisor of n, we are looking at the smallest field GF(p^n) such that n has exactly 6 divisors.  Just enumerate the divisors of n's and you should find the smallest n that has 6 divisors.  See Theorem 22.3. -Josh
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So what did you get as an answer? if 1 and 12 count as divisors then I got n=12.
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Do 1 and 12 count?

Latest revision as of 05:45, 11 December 2008

Do any of you have any helpful hints? That would be lovely.

GF(p^n) are the only fields we need to worry about, so we just need to find the smallest field of this form that has exactly 6 subfields. Since GF(p^n) has exactly one subfield per divisor of n, we are looking at the smallest field GF(p^n) such that n has exactly 6 divisors. Just enumerate the divisors of n's and you should find the smallest n that has 6 divisors. See Theorem 22.3. -Josh

So what did you get as an answer? if 1 and 12 count as divisors then I got n=12.


Do 1 and 12 count?

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Basic linear algebra uncovers and clarifies very important geometry and algebra.

Dr. Paul Garrett