C2xC3^3:D4 - GroupNames

G = C₂×C₃³⋊D₄ order 432 = 2⁴·3³

Direct product of C₂ and C₃³⋊D₄

direct product, non-abelian, soluble, monomial

Aliases: C₂×C₃³⋊D₄, S₃²⋊₂D₆, C₆⋊₂S₃≀C₂, C₃³⋊₃(C₂×D₄), (C₃²×C₆)⋊₂D₄, C₃³⋊C₄⋊₃C₂², C₃²⋊₄D₆⋊₂C₂², (C₂×S₃²)⋊₅S₃, (S₃²×C₆)⋊₁₀C₂, C₃⋊₃(C₂×S₃≀C₂), (C₃×C₃⋊S₃)⋊₅D₄, (C₃×S₃²)⋊₃C₂², C₃⋊S₃⋊₂(C₃⋊D₄), (C₃×C₆)⋊₃(C₃⋊D₄), (C₂×C₃⋊S₃).₂₁D₆, C₃²⋊₄(C₂×C₃⋊D₄), (C₂×C₃³⋊C₄)⋊₆C₂, C₃⋊S₃.₃(C₂²×S₃), (C₃×C₃⋊S₃).₆C₂³, (C₂×C₃²⋊₄D₆)⋊₅C₂, (C₆×C₃⋊S₃).₃₄C₂², SmallGroup(432,755)

Series: Derived ►Chief ►Lower central ►Upper central

Derived series

C₁ — C₃² — C₃×C₃⋊S₃ — C₂×C₃³⋊D₄

Chief series

C₁ — C₃ — C₃³ — C₃×C₃⋊S₃ — C₃²⋊₄D₆ — C₃³⋊D₄ — C₂×C₃³⋊D₄

Lower central

C₃³ — C₃×C₃⋊S₃ — C₂×C₃³⋊D₄

Upper central

C₁ — C₂

Generators and relations for C₂×C₃³⋊D₄
G = < a,b,c,d,e,f | a²=b³=c³=d³=e⁴=f²=1, ab=ba, ac=ca, ad=da, ae=ea, af=fa, bc=cb, bd=db, ebe^-1=c^-1, fbf=c, cd=dc, ece^-1=fcf=b, ede^-1=fdf=d^-1, fef=e^-1 >

Subgroups: 1396 in 192 conjugacy classes, 31 normal (19 characteristic)
C₁, C₂, C₂, C₃, C₃, C₄, C₂², S₃, C₆, C₆, C₂×C₄, D₄, C₂³, C₃², C₃², Dic₃, D₆, C₂×C₆, C₂×D₄, C₃×S₃, C₃⋊S₃, C₃⋊S₃, C₃×C₆, C₃×C₆, C₂×Dic₃, C₃⋊D₄, C₂²×S₃, C₂²×C₆, C₃³, C₃²⋊C₄, S₃², S₃², S₃×C₆, C₂×C₃⋊S₃, C₂×C₃⋊S₃, C₆², C₂×C₃⋊D₄, S₃×C₃², C₃×C₃⋊S₃, C₃×C₃⋊S₃, C₃²×C₆, S₃≀C₂, C₂×C₃²⋊C₄, C₂×S₃², C₂×S₃², S₃×C₂×C₆, C₃³⋊C₄, C₃×S₃², C₃×S₃², C₃²⋊₄D₆, C₃²⋊₄D₆, S₃×C₃×C₆, C₆×C₃⋊S₃, C₆×C₃⋊S₃, C₂×S₃≀C₂, C₃³⋊D₄, C₂×C₃³⋊C₄, S₃²×C₆, C₂×C₃²⋊₄D₆, C₂×C₃³⋊D₄
Quotients: C₁, C₂, C₂², S₃, D₄, C₂³, D₆, C₂×D₄, C₃⋊D₄, C₂²×S₃, C₂×C₃⋊D₄, S₃≀C₂, C₂×S₃≀C₂, C₃³⋊D₄, C₂×C₃³⋊D₄

Permutation representations of C₂×C₃³⋊D₄
►On 24 points - transitive group 24T1292

Generators in S₂₄

(1 17)(2 18)(3 19)(4 20)(5 15)(6 16)(7 13)(8 14)(9 21)(10 22)(11 23)(12 24)

(2 6 10)(4 12 8)(14 20 24)(16 22 18)

(1 9 5)(3 7 11)(13 23 19)(15 17 21)

(1 9 5)(2 6 10)(3 11 7)(4 8 12)(13 19 23)(14 24 20)(15 17 21)(16 22 18)

(1 2 3 4)(5 6 7 8)(9 10 11 12)(13 14 15 16)(17 18 19 20)(21 22 23 24)

(1 20)(2 19)(3 18)(4 17)(5 14)(6 13)(7 16)(8 15)(9 24)(10 23)(11 22)(12 21)

G:=sub<Sym(24)| (1,17)(2,18)(3,19)(4,20)(5,15)(6,16)(7,13)(8,14)(9,21)(10,22)(11,23)(12,24), (2,6,10)(4,12,8)(14,20,24)(16,22,18), (1,9,5)(3,7,11)(13,23,19)(15,17,21), (1,9,5)(2,6,10)(3,11,7)(4,8,12)(13,19,23)(14,24,20)(15,17,21)(16,22,18), (1,2,3,4)(5,6,7,8)(9,10,11,12)(13,14,15,16)(17,18,19,20)(21,22,23,24), (1,20)(2,19)(3,18)(4,17)(5,14)(6,13)(7,16)(8,15)(9,24)(10,23)(11,22)(12,21)>;

G:=Group( (1,17)(2,18)(3,19)(4,20)(5,15)(6,16)(7,13)(8,14)(9,21)(10,22)(11,23)(12,24), (2,6,10)(4,12,8)(14,20,24)(16,22,18), (1,9,5)(3,7,11)(13,23,19)(15,17,21), (1,9,5)(2,6,10)(3,11,7)(4,8,12)(13,19,23)(14,24,20)(15,17,21)(16,22,18), (1,2,3,4)(5,6,7,8)(9,10,11,12)(13,14,15,16)(17,18,19,20)(21,22,23,24), (1,20)(2,19)(3,18)(4,17)(5,14)(6,13)(7,16)(8,15)(9,24)(10,23)(11,22)(12,21) );

G=PermutationGroup([[(1,17),(2,18),(3,19),(4,20),(5,15),(6,16),(7,13),(8,14),(9,21),(10,22),(11,23),(12,24)], [(2,6,10),(4,12,8),(14,20,24),(16,22,18)], [(1,9,5),(3,7,11),(13,23,19),(15,17,21)], [(1,9,5),(2,6,10),(3,11,7),(4,8,12),(13,19,23),(14,24,20),(15,17,21),(16,22,18)], [(1,2,3,4),(5,6,7,8),(9,10,11,12),(13,14,15,16),(17,18,19,20),(21,22,23,24)], [(1,20),(2,19),(3,18),(4,17),(5,14),(6,13),(7,16),(8,15),(9,24),(10,23),(11,22),(12,21)]])

G:=TransitiveGroup(24,1292);

►On 24 points - transitive group 24T1312

Generators in S₂₄

(1 6)(2 7)(3 8)(4 5)(9 19)(10 20)(11 17)(12 18)(13 24)(14 21)(15 22)(16 23)

(1 21 20)(2 22 17)(3 18 23)(4 19 24)(5 9 13)(6 14 10)(7 15 11)(8 12 16)

(1 20 21)(2 22 17)(3 23 18)(4 19 24)(5 9 13)(6 10 14)(7 15 11)(8 16 12)

(1 20 21)(2 22 17)(3 18 23)(4 24 19)(5 13 9)(6 10 14)(7 15 11)(8 12 16)

(1 2 3 4)(5 6 7 8)(9 10 11 12)(13 14 15 16)(17 18 19 20)(21 22 23 24)

(1 6)(2 5)(3 8)(4 7)(9 22)(10 21)(11 24)(12 23)(13 17)(14 20)(15 19)(16 18)

G:=sub<Sym(24)| (1,6)(2,7)(3,8)(4,5)(9,19)(10,20)(11,17)(12,18)(13,24)(14,21)(15,22)(16,23), (1,21,20)(2,22,17)(3,18,23)(4,19,24)(5,9,13)(6,14,10)(7,15,11)(8,12,16), (1,20,21)(2,22,17)(3,23,18)(4,19,24)(5,9,13)(6,10,14)(7,15,11)(8,16,12), (1,20,21)(2,22,17)(3,18,23)(4,24,19)(5,13,9)(6,10,14)(7,15,11)(8,12,16), (1,2,3,4)(5,6,7,8)(9,10,11,12)(13,14,15,16)(17,18,19,20)(21,22,23,24), (1,6)(2,5)(3,8)(4,7)(9,22)(10,21)(11,24)(12,23)(13,17)(14,20)(15,19)(16,18)>;

G:=Group( (1,6)(2,7)(3,8)(4,5)(9,19)(10,20)(11,17)(12,18)(13,24)(14,21)(15,22)(16,23), (1,21,20)(2,22,17)(3,18,23)(4,19,24)(5,9,13)(6,14,10)(7,15,11)(8,12,16), (1,20,21)(2,22,17)(3,23,18)(4,19,24)(5,9,13)(6,10,14)(7,15,11)(8,16,12), (1,20,21)(2,22,17)(3,18,23)(4,24,19)(5,13,9)(6,10,14)(7,15,11)(8,12,16), (1,2,3,4)(5,6,7,8)(9,10,11,12)(13,14,15,16)(17,18,19,20)(21,22,23,24), (1,6)(2,5)(3,8)(4,7)(9,22)(10,21)(11,24)(12,23)(13,17)(14,20)(15,19)(16,18) );

G=PermutationGroup([[(1,6),(2,7),(3,8),(4,5),(9,19),(10,20),(11,17),(12,18),(13,24),(14,21),(15,22),(16,23)], [(1,21,20),(2,22,17),(3,18,23),(4,19,24),(5,9,13),(6,14,10),(7,15,11),(8,12,16)], [(1,20,21),(2,22,17),(3,23,18),(4,19,24),(5,9,13),(6,10,14),(7,15,11),(8,16,12)], [(1,20,21),(2,22,17),(3,18,23),(4,24,19),(5,13,9),(6,10,14),(7,15,11),(8,12,16)], [(1,2,3,4),(5,6,7,8),(9,10,11,12),(13,14,15,16),(17,18,19,20),(21,22,23,24)], [(1,6),(2,5),(3,8),(4,7),(9,22),(10,21),(11,24),(12,23),(13,17),(14,20),(15,19),(16,18)]])

G:=TransitiveGroup(24,1312);

36 conjugacy classes

class	1	2A	2B	2C	2D	2E	2F	2G	3A	3B	3C	3D	3E	3F	4A	4B	6A	6B	6C	6D	6E	6F	6G	6H	6I	6J	6K	···	6P	6Q	6R	6S	6T
order	1	2	2	2	2	2	2	2	3	3	3	3	3	3	4	4	6	6	6	6	6	6	6	6	6	6	6	···	6	6	6	6	6
size	1	1	6	6	9	9	18	18	2	4	4	4	4	8	54	54	2	4	4	4	4	6	6	6	6	8	12	···	12	18	18	36	36

36 irreducible representations

dim

type

image

C₁

C₂

S₃

D₄

D₆

C₃⋊D₄

S₃≀C₂

C₂×S₃≀C₂

C₃³⋊D₄

C₂×C₃³⋊D₄

C₃³⋊D₄

C₂×C₃³⋊D₄

kernel

C₂×C₃³⋊D₄

C₃³⋊D₄

C₂×C₃³⋊C₄

S₃²×C₆

C₂×C₃²⋊₄D₆

C₂×S₃²

C₃×C₃⋊S₃

C₃²×C₆

S₃²

C₂×C₃⋊S₃

C₃⋊S₃

C₃×C₆

C₆

C₃

C₂

C₁

C₂

C₁

# reps

Matrix representation of C₂×C₃³⋊D₄ ►in GL₄(𝔽₇) generated by

6	0	0	0
0	6	0	0
0	0	6	0
0	0	0	6

1	0	4	0
5	6	1	4
4	4	0	6
0	0	0	1

5	3	5	3
3	5	2	3
0	0	1	0
0	0	0	4

3	1	4	5
1	3	3	5
0	0	4	0
0	0	0	2

6	2	6	5
1	2	1	4
5	2	1	5
1	1	3	5

5	3	3	4
5	5	6	1
2	5	6	2
1	1	3	5

G:=sub<GL(4,GF(7))| [6,0,0,0,0,6,0,0,0,0,6,0,0,0,0,6],[1,5,4,0,0,6,4,0,4,1,0,0,0,4,6,1],[5,3,0,0,3,5,0,0,5,2,1,0,3,3,0,4],[3,1,0,0,1,3,0,0,4,3,4,0,5,5,0,2],[6,1,5,1,2,2,2,1,6,1,1,3,5,4,5,5],[5,5,2,1,3,5,5,1,3,6,6,3,4,1,2,5] >;

C₂×C₃³⋊D₄ in GAP, Magma, Sage, TeX

C_2\times C_3^3\rtimes D_4

% in TeX

G:=Group("C2xC3^3:D4");

// GroupNames label

G:=SmallGroup(432,755);

// by ID

G=gap.SmallGroup(432,755);

# by ID

G:=PCGroup([7,-2,-2,-2,-2,-3,3,-3,141,1684,571,165,677,530,14118]);

// Polycyclic

G:=Group<a,b,c,d,e,f|a^2=b^3=c^3=d^3=e^4=f^2=1,a*b=b*a,a*c=c*a,a*d=d*a,a*e=e*a,a*f=f*a,b*c=c*b,b*d=d*b,e*b*e^-1=c^-1,f*b*f=c,c*d=d*c,e*c*e^-1=f*c*f=b,e*d*e^-1=f*d*f=d^-1,f*e*f=e^-1>;

// generators/relations

G = C2×C33⋊D4 order 432 = 24·33

Direct product of C2 and C33⋊D4

G = C₂×C₃³⋊D₄ order 432 = 2⁴·3³

Direct product of C₂ and C₃³⋊D₄