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Problem 53 (Finite Subgroup Test)
Let $G$ be a group. Suppose that $H$ is a nonempty finite subset of $G$ and that $H$ is closed under the operation of $G$ (so if $a,b\in H$, then we must have $ab\in H$). Prove that $H$ is a subgroup of $G$.
Hint. If you use the subgroup test (show that $H$ is a nonempty subset of $G$ that is closed under the operation and taking inverses), then we get to assume it's a nonempty subset of $G$ that is closed under the operation. All you have to do is explain why it's closed under taking inverses. The work you did in the problem The Inverse In A Finite Group Is A Power Of The Element should help you quite a bit. However, you can't use this theorem directly because you do not know that $G$ is a finite group. You'll want to reuse your work from that problem, not refer to the problem.
The following pages link to this page.
- Ben.Reorganizing
- Problem.FiniteSubgroupTest
- Problem.TheAlternatingGroupIsASubgroupOfTheSymmetricGroup
- Schedule.20161014
- Schedule.20161017
- Schedule.20161019
- Schedule.20161021
- Schedule.20171013
- Schedule.20171016
- Schedule.20171020
- Schedule.20171023
- Schedule.20171025
- Schedule.20171027
- Schedule.20171030
- Schedule.20171101
- Schedule.AllProblems
- Solution.FiniteSubgroupTestBen
- Solution.FiniteSubgroupTestLevi