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$H$ and $K$ are subgroups of a group $G$ with $H$ doesn't equal to $K$ and $|H| = |K| = 11$. Prove that $H \cap K = \{e\}$

Have no idea about this question. Dont know if there is some theorem about it.

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    Hint: Lagrange's Theorem.2012-04-15
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    Can we generalize this post for a prime $p$ so that this shall be a good original for subsequent posts?2012-04-15
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    @KannappanSampath: That seems like a good idea. Would it be considered impolite for you to just go ahead and change it?2012-04-16
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    @TaraB It would be impolite. May be, I would make a meta post in the near future. Thank you for dropping by to tell me what you feel. I'd ping you when I write a question at the meta. Regards,2012-04-16

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