Can the following statement be proved? "there are only two different groups of order 4 up to isomorphism" I have seen somewhere that there are only two groups up to isomorphism of order 4 -cyclic of order 4 and the klein4 group.All other groups with 4 elements are isomorphic to one of these.Really I don't have any idea on attempting this problem, so I please need your help.Thanks all!
Prove that there only two groups of order 4 up to isomorphism
4
$\begingroup$
abstract-algebra
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2Recall that the order of an element always divides the size of the group. Only one element can have order $1$ (the identity). What options are left? – 2012-01-21
1 Answers
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HINT:
What happens if the group has an element of order $4$?
If it has no such element, the three non-identity elements all have order ... what? Then give them names $-$ $a,b$, and $c$, for instance $-$ and start filling out the group multiplication table. You’ll find that there’s only one way to do so that’s consistent with the properties required of a group.
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0I don’t suppose that the downvoter would care to be useful and explain what’s wrong? No, I didn’t think so. – 2015-04-14