A Topological Proof of the Insolvability of the Quintic

It is a well known fact that there is no general formula for quintic equations or algebraic equations of any higher degree, and a typical proof of this fact uses heavy machinery from Galois theory. However, there is a far more elementary but much less well known proof by V.I. Arnold using nothing more than basic knowledge of complex numbers and topology. Last week, I gave a talk on the Short Attention Span Math Seminars organized by the Pure Math Club at University of Waterloo. In my talk, I explained the main idea of his proof: moving the coefficients along loops to induce permutations of the roots. I also talked about how it could be turned into a rigorous proof using Riemann surfaces of algebraic functions and their monodromy groups, as well as its connections to Galois theory. In the end, I also discussed briefly some ideas related to this proof. Here are my slides.

In my talk I used Fred Akalin’s javascript program which visualizes the permutations of roots. He also has a very well written exposition on the same topic which you should definitely check out. I’m also very grateful to Faisal Al-Faisal for suggesting me to do this topic.

Schubert Calculus and Cohomology of Grassmannians Semisimple Lie Algebras, Weyl Groups, and Root Systems

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