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==Note 19==
 
==Note 19==
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So long as we're in the neighborhood, we might as well take in some more of the sights, for instance, the smallest example of a non-abelian (non-commutative) group.  This is a group of six elements, say, <math>G = \{ \operatorname{e}, \operatorname{f}, \operatorname{g}, \operatorname{h}, \operatorname{i}, \operatorname{j} \},\!</math> with no relation to any other employment of these six symbols being implied, of course, and it can be most easily represented as the permutation group on a set of three letters, say, <math>X = \{ A, B, C \},\!</math> usually notated as <math>G = \operatorname{Sym}(X)</math> or more abstractly and briefly, as <math>\operatorname{Sym}(3)</math> or <math>S_3.\!</math>  The next Table shows the intended correspondence between abstract group elements and the permutation or substitution operations in <math>\operatorname{Sym}(X).</math>
    
<pre>
 
<pre>
| Consider what effects that might 'conceivably'
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| have practical bearings you 'conceive' the
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| objects of your 'conception' to have.  Then,
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| your 'conception' of those effects is the
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| whole of your 'conception' of the object.
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|
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| Charles Sanders Peirce,
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| "Maxim of Pragmaticism", CP 5.438.
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So long as we're in the neighborhood, we might as well take in
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some more of the sights, for instance, the smallest example of
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a non-abelian (non-commutative) group.  This is a group of six
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elements, say, G = {e, f, g, h, i, j}, with no relation to any
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other employment of these six symbols being implied, of course,
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and it can be most easily represented as the permutation group
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on a set of three letters, say, X = {A, B, C}, usually notated
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as G = Sym(X) or more abstractly and briefly, as Sym(3) or S_3.
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Here are the permutation (= substitution) operations in Sym(X):
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Table 2.  Permutations or Substitutions in Sym_{A, B, C}
 
Table 2.  Permutations or Substitutions in Sym_{A, B, C}
 
o---------o---------o---------o---------o---------o---------o
 
o---------o---------o---------o---------o---------o---------o
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|        |        |        |        |        |        |
 
o---------o---------o---------o---------o---------o---------o
 
o---------o---------o---------o---------o---------o---------o
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</pre>
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Here is the operation table for S_3, given in abstract fashion:
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Here is the operation table for <math>S_3,\!</math> given in abstract fashion:
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<pre>
 
Table 3.  Symmetric Group S_3
 
Table 3.  Symmetric Group S_3
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</pre>
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By the way, we will meet with the symmetric group S_3 again
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By the way, we will meet with the symmetric group <math>S_3\!</math> again when we return to take up the study of Peirce's early paper "On a Class of Multiple Algebras" (CP 3.324&ndash;327), and also his late unpublished work "The Simplest Mathematics" (1902) (CP 4.227&ndash;323), with particular reference to the section that treats of "Trichotomic Mathematics" (CP 4.307&ndash;323).
when we return to take up the study of Peirce's early paper
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"On a Class of Multiple Algebras" (CP 3.324-327), and also
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his late unpublished work "The Simplest Mathematics" (1902)
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(CP 4.227-323), with particular reference to the section
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that treats of "Trichotomic Mathematics" (CP 4.307-323).
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</pre>
      
==Work Area==
 
==Work Area==
Jon Awbrey
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