Symmetric group on finite set: Difference between revisions

Latest revision as of 06:40, 21 March 2016

Definition

A symmetric group on finite set or symmetric group of finite degree is a symmetric group on a finite set.

See symmetric group for more general information about symmetric groups.

Particular cases

Small finite values

Since alternating groups are simple for degree at least five, all symmetric groups of degree at least five are not solvable. Also, all symmetric groups of degree greater than two are centerless, and among them, the one of degree six is the only one that is not complete.

Cardinality of set	Common name for symmetric group of that degree	Order with prime factorization	Comments
0	Trivial group	1	Trivial
1	Trivial group	1	Trivial
2	Cyclic group:Z2	2	group of prime order. In particular, abelian
3	Symmetric group:S3	$6=2\cdot 3$	supersolvable but not nilpotent. Also, complete
4	Symmetric group:S4	$24=2^{3}\cdot 3$	solvable but not supersolvable or nilpotent. Also, complete
5	Symmetric group:S5	$120=2^{3}\cdot 3\cdot 5$	not solvable. Has simple non-abelian subgroup of index two. Also, complete
6	Symmetric group:S6	$720=2^{4}\cdot 3^{2}\cdot 5$	not solvable, and not complete.
7	Symmetric group:S7	$5040=2^{4}\cdot 3^{2}\cdot 5\cdot 7$	complete, not solvable, has simple non-abelian subgroup of index two.
8	Symmetric group:S8	$40320=2^{7}\cdot 3^{2}\cdot 5\cdot 7$	complete, not solvable, has simple non-abelian subgroup of index two.

Group properties

Below we discuss properties satisfied for the symmetric group of degree $n$ .

Property	Satisfied?	Explanation
abelian group	No for $n\geq 3$
nilpotent group	No for $n\geq 3$
solvable group	No for $n\geq 5$
complete group	Yes for $n\neq 2,6$	symmetric groups are complete
centerless group	Yes for $n\neq 2$	symmetric groups are centerless
ambivalent group	Yes	symmetric groups are ambivalent
strongly rational group	Yes	symmetric groups are strongly rational

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 Since [[alternating groups are simple]] for degree at least five, all symmetric groups of degree at least five are ''not'' solvable. Also, all symmetric groups of degree greater than two are centerless, and among them, the one of degree six is the only one that is not [[complete group|complete]].
-{| class="wikitable" border="1"
+{| class="soritable" border="1"
 !Cardinality of set !! Common name for symmetric group of that degree !! Order with prime factorization !! Comments
 |-
@@ Line 26: / Line 26: @@
 |-
 | 6 || [[Symmetric group:S6]] || <math>720 = 2^4 \cdot 3^2 \cdot 5</math> || not solvable, and not [[complete group|complete]].
+|-
+| 7 || [[Symmetric group:S7]] || <math>5040 = 2^4 \cdot 3^2 \cdot 5 \cdot 7</math> || complete, not solvable, has simple non-abelian subgroup of index two.
+|-
+| 8 || [[Symmetric group:S8]] || <math>40320 = 2^7 \cdot 3^2 \cdot 5 \cdot 7</math> ||complete, not solvable, has simple non-abelian subgroup of index two.
 |}
@@ Line 32: / Line 36: @@
 Below we discuss properties satisfied for the symmetric group of degree <math>n</math>.
-{| class="wikitable" border="1"
+{| class="sortable" border="1"
-! Property !! Satisfied !! Explanation !! Comment
+! Property !! Satisfied? !! Explanation !! Comment
 |-
 | [[abelian group]] || No for <math>n \ge 3</math> || ||
@@ Line 44: / Line 48: @@
 |-
 | [[centerless group]] || Yes for <math>n \ne 2</math> || [[symmetric groups are centerless]] ||
+|-
+| [[ambivalent group]] || Yes || [[symmetric groups are ambivalent]] ||
+|-
+| [[strongly rational group]] || Yes || [[symmetric groups are strongly rational]] ||
 |}