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Question: Show that if H is a subgroup of <math>S_n</math>, then either every member of H is an even permutation or exactly half of the members are even.  
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=[[HW2_MA453Fall2008walther|HW2]], Chapter 5 problem 19, Discussion, [[MA453]], [[user:walther|Prof. Walther]]=
  
Answer:
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==Problem Statement:==
Suppose H contains at least one odd permutation, say <math>gamma</math>
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Show that if H is a subgroup of <math>S_n</math>, then either every member of H is an even permutation or exactly half of the members are even.
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-------
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'''Answer:'''
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Suppose H contains at least one odd permutation, say <math>\sigma</math>. For each odd permutation <math>\beta</math>, the permutation <math>\sigma \beta</math> is even.
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Note:
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<math>\sigma</math>  = odd
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<math>\beta</math> = odd
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<math>\sigma \beta </math> = even
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Different <math> \beta </math> give different <math>\sigma \beta </math>. Thus there are as many even permutations as there are odd ones.
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For each even permutation <math> \beta </math>, the permutation <math> \sigma \beta </math>  in H is odd.
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Note:
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<math>\sigma</math>  = even
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<math>\beta</math> = odd
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<math>\sigma \beta </math> = odd
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Also, when <math>\sigma \beta  \neq  \beta \sigma </math> when <math> \sigma \neq \beta </math>. In other words different <math> \beta </math> give different <math>\sigma \beta </math>.  Thus there are at least as many odd permutations as there are even ones.
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Conclusion: Since there are equal numbers of even and odd permutations, exactly half of the members are even.
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By Thm. 5.6 in the text, "the set of even permutations in <math> S_n </math>, form a subgroup <math> H \subset S_n  </math>.
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Therefore, if all members of H are even, we are done.
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----
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[[HW2_MA453Fall2008walther|Back to HW2]]
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[[Main_Page_MA453Fall2008walther|Back to MA453 Fall 2008 Prof. Walther]]

Latest revision as of 15:37, 22 October 2010

HW2, Chapter 5 problem 19, Discussion, MA453, Prof. Walther

Problem Statement:

Show that if H is a subgroup of $ S_n $, then either every member of H is an even permutation or exactly half of the members are even.


Answer:

Suppose H contains at least one odd permutation, say $ \sigma $. For each odd permutation $ \beta $, the permutation $ \sigma \beta $ is even.

Note:

$ \sigma $ = odd

$ \beta $ = odd

$ \sigma \beta $ = even

Different $ \beta $ give different $ \sigma \beta $. Thus there are as many even permutations as there are odd ones.

For each even permutation $ \beta $, the permutation $ \sigma \beta $ in H is odd.

Note:

$ \sigma $ = even

$ \beta $ = odd

$ \sigma \beta $ = odd

Also, when $ \sigma \beta \neq \beta \sigma $ when $ \sigma \neq \beta $. In other words different $ \beta $ give different $ \sigma \beta $. Thus there are at least as many odd permutations as there are even ones.

Conclusion: Since there are equal numbers of even and odd permutations, exactly half of the members are even.

By Thm. 5.6 in the text, "the set of even permutations in $ S_n $, form a subgroup $ H \subset S_n $. Therefore, if all members of H are even, we are done.


Back to HW2

Back to MA453 Fall 2008 Prof. Walther

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