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I read that the primitive element theorem for fields was fundamental in expositions of Galois theory before Emil Artin reformulated the subject. What are the differences between pre and post-Artin Galois theory?

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  • $\begingroup$ Maybe you can add the tag ho.history-overview. $\endgroup$ May 31, 2010 at 11:41
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    $\begingroup$ Actually, it wasn't all that different, except that you first proved the primitive element theorem, and then proved things by choosing a primitive element. Artin disliked having to make a choice, and his main contribution was show that you can do Galois theory without choosing a primitive element. It's not obvious to me that this makes things easier or better. You can find the old approach in A.A. Albert's book on algebra. $\endgroup$
    – JS Milne
    May 31, 2010 at 11:57
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    $\begingroup$ Charles, the independence of multiplicative characters is usually credited to Dedekind. Galois theory is about separable extensions. $\endgroup$
    – JS Milne
    May 31, 2010 at 13:11
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    $\begingroup$ I checked some references and Milne is right: Dedekind is the person who introduced characters on general finite abelian groups. Weber simply popularized them further in his own books. $\endgroup$
    – KConrad
    May 31, 2010 at 23:54
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    $\begingroup$ I would suggest, based only on gut feeling here, that Artin's innovation insofar as characters are concerned was seeing that letting characters take values in any field, not just (as with Dedekind) the complex numbers, would be useful to Galois theory. I'm not sure that Dedekind could conceive such a thing, as the only fields in his day where subfields of C, fields of functions (as on a curve), and finite fields. In Dedekind's time, number fields were subfields of C. General fields were introduced by Steinitz in the early 20th century. $\endgroup$
    – KConrad
    Jun 1, 2010 at 0:03

4 Answers 4

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The development of Galois theory from Lagrange to Artin by B. Melvin Kiernan, is a history of pre-Artin Galois theory.

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    $\begingroup$ I've now seen some negative comments about a few points in Kiernan. $\endgroup$ Jun 3, 2010 at 9:52
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Two articles by James Pierpont in the first two issues of the annals of math second series give a view of Galois theory as of 1900. They are:

Galois' Theory of Algebraic Equations, Ann. of Math. second series, Vol 1 (1899-1900), 113-143,

and

Galois' Theory of Algebraic Equations. Part II. Irrational Resolvents, Ann. of Math. second series, Vol 2 (1900-1901), 22-56.

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    $\begingroup$ These articles are now available in full, for free, courtesy of JSTOR's Early Journals initiative -- links added into the above. $\endgroup$ Dec 3, 2016 at 12:58
  • $\begingroup$ There is also the precursor (1897) article by Pierpont, The Early History of Galois Theory of Equations, Bulletin of the American Mathematical Society, April 1898 $\endgroup$ Dec 3, 2016 at 13:01
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Post-Artin, you could read about it in English! No, that's not fair, but few authors writing in English on the "theory of equations" handled it. An exception would be L. E. Dickson, and I looked at one of his books before encountering the so-called modern theory (now aged about 85) of Artin and Emmy Noether, as written up by van der Waerden first. I think I must have read Modern Algebraic Theories by Dickson. Anyway the review of that in Bulletin of the AMS (Bull. Amer. Math. Soc. 32 (1926), 707-710) can give some idea of the good old days, if you can't find the book.

By the way, just anecdotal, but G. H. Hardy made some public blunder in Galois theory, so it wasn't really transparent.

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  • $\begingroup$ There is also Dickson's first book (according to Wikipedia) "Linear Groups with an Exposition of Galois Field Theory", first published in 1901. Ancient! Oh whoops. Actually, the book doesn't seem to feature any Galois theory, but rather "Galois Field"="Finite Field". It's a book about linear groups over finite fields. $\endgroup$ May 31, 2010 at 11:35
  • $\begingroup$ Remarks: Van der Waerden's treatment in early editions of his Modern Algebra doesn't fit the pattern: uses primitive elements (perhaps to be constructive, as he notes in his intro that he wants to be). The Dedekind determinant issue does appear to be close enough to linear independence of 1-D characters of G in K*: abelianise G, wlog, and then if characters are dependent the group determinant can't have the basis of eigenvectors we know. Clear to Artin, doubtless. $\endgroup$ May 31, 2010 at 15:56
  • $\begingroup$ But it appears that the linear independence was made more nearly explicit by Dedekind (see p.7 of hss.cmu.edu/philosophy/techreports/184_Dean.pdf) in his Vorlesungen. That article also credits Artin with the formulation of the Fundamental Theorem in abstract terms, while crediting Dedekind with the theory for subfields of the complex numbers. $\endgroup$ Jun 3, 2010 at 9:50
  • $\begingroup$ Does not van der Waerden attribute the treatment to Artin? $\endgroup$
    – Igor Rivin
    Dec 3, 2016 at 18:35
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it was called "theory of equations" in certain places in English. one learned how to solve cubic and quartic and other special types. Galois theory was taught literally as the study of symmetric polynomials of the roots - the invariants and coinvariants

here's one

Galois' own writings are available online. His total writings total less than 100 pages (only some of it on theory of permutation "groups" for solving equations) and changed the course of mathematics.

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