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Ah, makes a lot of sense. Thanks for the good explanation.
 
Ah, makes a lot of sense. Thanks for the good explanation.
-[[User:Bstrole|Bstrole]]
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-[[strole|strole]]

Latest revision as of 14:39, 19 February 2009


We need to show that left and right cosets agree. The left cosets of H are H and the complement of H, because there are 2 cosets and they must be disjoint. The same works for the right cosets. So they are equal.

--Nswitzer 17:08, 17 February 2009 (UTC)

To elaborate a bit on this solution:

Index 2 means that there are exactly 2 distinct left cosets and 2 distinct right cosets of H in G. Furthermore, it means that |H| is half of |G|. In order to show that H is normal, we must show that xH = Hx.

Suppose x is an element of G that is also in H. Then xH = H because x is in H, so xH can only produce elements already in H. By the same logic, Hx = H.

If x is not an element of G, then xH is not in H. Therefore, xH must produce a different coset than the one above. Since there are only 2 distinct left cosets, this new coset must be exactly the elements in G but not in H, we call it H'. Using the same reasoning as above, we know that Hx = H'.

From these 2 conclusions, it is clear that for any x in G, xH = Hx, which is the definition of a normal subgroup.

--Ysuo

Ah, makes a lot of sense. Thanks for the good explanation. -strole

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