25/11/10 22:20:44.69 Dp+ahlva.net
>>738
>代数学の基本定理のガウスの証明についてGrokに聞いたところ以下の回答を得た
Grokか・・。下記の劣化要約だろ?w ;p)
URLリンク(en.wikipedia.org)
Fundamental theorem of algebra
History
(抜粋)
The other one was published by Gauss in 1799 and it was mainly geometric, but it had a topological gap, only filled by Alexander Ostrowski in 1920, as discussed in Smale (1981).[6]
The first rigorous proof was published by Argand, an amateur mathematician, in 1806 (and revisited in 1813);[7] it was also here that, for the first time, the fundamental theorem of algebra was stated for polynomials with complex coefficients, rather than just real coefficients. Gauss produced two other proofs in 1816 and another incomplete version of his original proof in 1849.
The first textbook containing a proof of the theorem was Cauchy's Cours d'analyse de l'École Royale Polytechnique (1821). It contained Argand's proof, although Argand is not credited for it.
None of the proofs mentioned so far is constructive. It was Weierstrass who raised for the first time, in the middle of the 19th century, the problem of finding a constructive proof of the fundamental theorem of algebra. He presented his solution, which amounts in modern terms to a combination of the Durand–Kerner method with the homotopy continuation principle, in 1891. Another proof of this kind was obtained by Hellmuth Kneser in 1940 and simplified by his son Martin Kneser in 1981.
Without using countable choice, it is not possible to constructively prove the fundamental theorem of algebra for complex numbers based on the Dedekind real numbers (which are not constructively equivalent to the Cauchy real numbers without countable choice).[8] However, Fred Richman proved a reformulated version of the theorem that does work.[9]
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