arXiv:2203.14534 Abstract | arXiv Analytics

arXiv:2203.14534 [math.GR]Abstract References Reviews Resources

A Combinatorial Proof of a generalization of a Theorem of Frobenius

Published 2022-03-28Version 1

In this article, we shall generalize a theorem due to Frobenius in group theory, which asserts that if $p$ is a prime and $p^{r}$ divides the order of a finite group, then the number of subgroups of order $p^{r}$ is $\equiv$ 1(mod $p$). Interestingly, our proof is purely combinatorial and does not use much group theory.

Comments: Accepted for publication in "The Mathematics Student" Journal

Categories: math.GR

Keywords: combinatorial proof, generalization, group theory, finite group

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arXiv:2203.14534 [math.GR]Abstract References Reviews Resources

A Combinatorial Proof of a generalization of a Theorem of Frobenius

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arXiv:2203.14534 [math.GR]AbstractReferencesReviewsResources

A Combinatorial Proof of a generalization of a Theorem of Frobenius

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arXiv:2203.14534 [math.GR]Abstract References Reviews Resources