Talk:Galois theory
The following is just a scratch to work out the 1st non-stub version of the article
- Text from below here is not in the article yet
However, we may create an extension field L containing two elements such that . By the fundamental theorem of algebra this is always possible - there exists a subfield L of C such that
As an example, the second-degree polynomial - when the coefficients {0,1,5} are viewed as elements of Q - turns out to have the Galois group .
From the subgroup structure of - the only proper subgroup is the trivial group - we may conclude that the chain of extension fields from Q to the smallet extension field of Q such that the polynomial splits is trivial - no intermediate extension fields exist.
Finding the Galois group of a polynomial is in general a tedious process, in this example it was easy, since the group had to be contained in .
Looking again at the polynomial , one may wonder exactly what it's "Galois group" is, and how to find it.
... Mention something about the Fundamental theorem of algebra, which implies that there is a subfield in C such that can be split into linear factors ...
...Mention , where n is the degree of the polynomial ...
Basic concepts/glossary
- Polynomial over a field K: An expression of the form , with .
- Root of a polynomial : a number r such that
- A splitting field for a polynomial : A field which contains the original field K as a subfield, and also contains all the roots of .
Summary of the theory
Given a polynomial with coefficients in some field K, it may be the case that the equation has no solutions in K. In that case, is said to be irreducible in K.
Anyway, if K is a subfield of C, we are guaranteed by the fundamental theorem of algebra that there exists a subfield of C containing K and all the roots.
...blabber about field of characteristic <> 0 ...
Field extensions
Any field K can be "extended" by including one or more "foreign" elements, f.i. the field Q can be extended by including sqr(2). The resulting field is the subset of R described by a+b sqrt(2), a,b in Q.
Similarly, if r1, r2, ... rn are roots of a polynomial α , a lattice of extension fields may be constructed. ...
Algebraic extension vs transcendental...
The order of an extension ...
Normal extensions and splitting fields ...
Given a polynomial with coefficients in a field K, there exists a field M ⊇ K - known as a splitting field of - which contains all the roots of .
The Galois correspondence
The correspondence between the Galois group subgroup structure and the field extension lattice ...
Caveat - separability - only relevant with non-zero characteristic fields.
Soluble groups ... Why neither the quintic nor its friend S5 are "soluble". Why 60 degree angles won't let themselves be "trisected". Why this was a triumph for Galois theory, 2000+ year old riddles solved.
- How much to rely on an extra "Field extensions" article?
- Ragnar Schroder 05:38, 12 December 2007 (CST)