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a) In $D_4$, find $H_1$ isomorphic to $\mathbb{Z}_4$ and $H_2$ isomorphic to $V$, the Klein Four group, with $D_4/H_1$ isomorphic to $D_4/H_2$.

b) In $D_4$, find subgroups $H$ and $K$ with $H$ normal in $K$ and $K$ normal in $D_4$ but $H$ not not normal in $D_4$.

-and in this I'm just confused.

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    What do you mean by 4Z/Z, and how is it inside D4? Perhaps you mean Z/4Z? But you're required to find a subgroup of D4 that's iso to Z4, not a quotient of the integers. I think it would benefit you to just list out every possible subgroup of D4 and then check their isomorphism types, then check which subgroups are normal in which other subgroups (including the entire group itself).2012-12-14
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    I changed $4\mathbb{Z}/\mathbb{Z}$ to $\mathbb{Z}/4\mathbb{Z}$ as this was almost certainly a typo. I don't know what you mean by $8\mathbb{Z}/\mathbb{Z}_2$ though.2012-12-14
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    @MattPressland Presumably $2\Bbb Z/8\Bbb Z$...2012-12-14
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    @anon That was my best guess, but it seems like an odd thing to say, so I didn't want to change it to that without the OP's approval.2012-12-14
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    (And 4Z/Z is just a typo rather than an odd thing to say? :P)2012-12-14
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    Sometimes fun is free rather than expensive, but I suppose that's OPs judgment to make.2012-12-14
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    @anon I know...I didn't mean put you down. Fun is good. But can be unhelpful. I answer questions here, but rarely ask, because questions are too often met with sarcasm, and I personally find it hurtful when I'm the "butt" of the joke. So I'm just wanting to error on the side of caution.2012-12-14
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    Yeah, I just looked at it again and that can't be in D4. I'm just very confused. I'll take that out.2012-12-14

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