C2.D5wrC2 - GroupNames

G = C₂.D₅≀C₂ order 400 = 2⁴·5²

2^nd central extension by C₂ of D₅≀C₂

Aliases: C₂.₂D₅≀C₂, C₅⋊D₅.₂Q₈, C₅²⋊₃(C₄⋊C₄), C₅²⋊C₄⋊₃C₄, (C₅×C₁₀).₂D₄, Dic₅⋊₂D₅.₂C₂, C₅⋊D₅.₆(C₂×C₄), (C₂×C₅²⋊C₄).₃C₂, (C₂×C₅⋊D₅).₇C₂², SmallGroup(400,130)

Series: Derived ►Chief ►Lower central ►Upper central

Derived series

C₁ — C₅² — C₅⋊D₅ — C₂.D₅≀C₂

Chief series

C₁ — C₅² — C₅⋊D₅ — C₂×C₅⋊D₅ — Dic₅⋊₂D₅ — C₂.D₅≀C₂

Lower central

C₅² — C₅⋊D₅ — C₂.D₅≀C₂

Upper central

C₁ — C₂

Generators and relations for C₂.D₅≀C₂
G = < a,b,c,d,e | a²=b⁵=c⁵=d⁴=1, e²=a, ab=ba, ac=ca, ad=da, ae=ea, bc=cb, dbd^-1=ece^-1=b², ebe^-1=dcd^-1=c³, ede^-1=d^-1 >

C₁

C₂

₂₅C₂

₂C₅

₁₀C₄

₂₅C₄

₂₅C₂²

₂₅C₄

₂C₁₀

₁₀D₅

C₅²

₂₅C₂×C₄

₂Dic₅

₁₀F₅

₁₀C₂₀

₁₀F₅

₁₀C₂₀

₁₀D₁₀

C₅×C₁₀

C₅⋊D₅

₂₅C₄⋊C₄

₁₀C₂×F₅

₁₀C₄×D₅

C₅²⋊C₄

C₂×C₅⋊D₅

C₅²⋊C₄

₂C₅×Dic₅

Dic₅⋊₂D₅

C₂×C₅²⋊C₄

C₂.D₅≀C₂

Character table of C₂.D₅≀C₂

class	1	2A	2B	2C	4A	4B	4C	4D	4E	4F	5A	5B	5C	5D	5E	10A	10B	10C	10D	10E	20A	20B	20C	20D	20E	20F	20G	20H
size	1	1	25	25	10	10	10	10	50	50	4	4	4	4	8	4	4	4	4	8	20	20	20	20	20	20	20	20
ρ₁	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	trivial
ρ₂	1	1	1	1	-1	-1	1	1	-1	-1	1	1	1	1	1	1	1	1	1	1	-1	1	1	-1	1	1	-1	-1	linear of order 2
ρ₃	1	1	1	1	1	1	-1	-1	-1	-1	1	1	1	1	1	1	1	1	1	1	1	-1	-1	1	-1	-1	1	1	linear of order 2
ρ₄	1	1	1	1	-1	-1	-1	-1	1	1	1	1	1	1	1	1	1	1	1	1	-1	-1	-1	-1	-1	-1	-1	-1	linear of order 2
ρ₅	1	-1	1	-1	i	-i	-i	i	-1	1	1	1	1	1	1	-1	-1	-1	-1	-1	-i	-i	-i	i	i	i	i	-i	linear of order 4
ρ₆	1	-1	1	-1	-i	i	-i	i	1	-1	1	1	1	1	1	-1	-1	-1	-1	-1	i	-i	-i	-i	i	i	-i	i	linear of order 4
ρ₇	1	-1	1	-1	i	-i	i	-i	1	-1	1	1	1	1	1	-1	-1	-1	-1	-1	-i	i	i	i	-i	-i	i	-i	linear of order 4
ρ₈	1	-1	1	-1	-i	i	i	-i	-1	1	1	1	1	1	1	-1	-1	-1	-1	-1	i	i	i	-i	-i	-i	-i	i	linear of order 4
ρ₉	2	2	-2	-2	0	0	0	0	0	0	2	2	2	2	2	2	2	2	2	2	0	0	0	0	0	0	0	0	orthogonal lifted from D₄
ρ₁₀	2	-2	-2	2	0	0	0	0	0	0	2	2	2	2	2	-2	-2	-2	-2	-2	0	0	0	0	0	0	0	0	symplectic lifted from Q₈, Schur index 2
ρ₁₁	4	4	0	0	0	0	2	2	0	0	^3+√5/₂	^3-√5/₂	-1+√5	-1-√5	-1	-1-√5	^3-√5/₂	-1+√5	^3+√5/₂	-1	0	^-1-√5/₂	^-1+√5/₂	0	^-1-√5/₂	^-1+√5/₂	0	0	orthogonal lifted from D₅≀C₂
ρ₁₂	4	4	0	0	0	0	-2	-2	0	0	^3+√5/₂	^3-√5/₂	-1+√5	-1-√5	-1	-1-√5	^3-√5/₂	-1+√5	^3+√5/₂	-1	0	^1+√5/₂	^1-√5/₂	0	^1+√5/₂	^1-√5/₂	0	0	orthogonal lifted from D₅≀C₂
ρ₁₃	4	4	0	0	-2	-2	0	0	0	0	-1-√5	-1+√5	^3+√5/₂	^3-√5/₂	-1	^3-√5/₂	-1+√5	^3+√5/₂	-1-√5	-1	^1+√5/₂	0	0	^1+√5/₂	0	0	^1-√5/₂	^1-√5/₂	orthogonal lifted from D₅≀C₂
ρ₁₄	4	4	0	0	0	0	-2	-2	0	0	^3-√5/₂	^3+√5/₂	-1-√5	-1+√5	-1	-1+√5	^3+√5/₂	-1-√5	^3-√5/₂	-1	0	^1-√5/₂	^1+√5/₂	0	^1-√5/₂	^1+√5/₂	0	0	orthogonal lifted from D₅≀C₂
ρ₁₅	4	4	0	0	-2	-2	0	0	0	0	-1+√5	-1-√5	^3-√5/₂	^3+√5/₂	-1	^3+√5/₂	-1-√5	^3-√5/₂	-1+√5	-1	^1-√5/₂	0	0	^1-√5/₂	0	0	^1+√5/₂	^1+√5/₂	orthogonal lifted from D₅≀C₂
ρ₁₆	4	4	0	0	0	0	2	2	0	0	^3-√5/₂	^3+√5/₂	-1-√5	-1+√5	-1	-1+√5	^3+√5/₂	-1-√5	^3-√5/₂	-1	0	^-1+√5/₂	^-1-√5/₂	0	^-1+√5/₂	^-1-√5/₂	0	0	orthogonal lifted from D₅≀C₂
ρ₁₇	4	4	0	0	2	2	0	0	0	0	-1+√5	-1-√5	^3-√5/₂	^3+√5/₂	-1	^3+√5/₂	-1-√5	^3-√5/₂	-1+√5	-1	^-1+√5/₂	0	0	^-1+√5/₂	0	0	^-1-√5/₂	^-1-√5/₂	orthogonal lifted from D₅≀C₂
ρ₁₈	4	4	0	0	2	2	0	0	0	0	-1-√5	-1+√5	^3+√5/₂	^3-√5/₂	-1	^3-√5/₂	-1+√5	^3+√5/₂	-1-√5	-1	^-1-√5/₂	0	0	^-1-√5/₂	0	0	^-1+√5/₂	^-1+√5/₂	orthogonal lifted from D₅≀C₂
ρ₁₉	4	-4	0	0	0	0	2i	-2i	0	0	^3-√5/₂	^3+√5/₂	-1-√5	-1+√5	-1	1-√5	^-3-√5/₂	1+√5	^-3+√5/₂	1	0	ζ₄ζ₅⁴+ζ₄ζ₅	ζ₄ζ₅³+ζ₄ζ₅²	0	ζ₄³ζ₅⁴+ζ₄³ζ₅	ζ₄³ζ₅³+ζ₄³ζ₅²	0	0	complex faithful
ρ₂₀	4	-4	0	0	-2i	2i	0	0	0	0	-1+√5	-1-√5	^3-√5/₂	^3+√5/₂	-1	^-3-√5/₂	1+√5	^-3+√5/₂	1-√5	1	ζ₄ζ₅⁴+ζ₄ζ₅	0	0	ζ₄³ζ₅⁴+ζ₄³ζ₅	0	0	ζ₄³ζ₅³+ζ₄³ζ₅²	ζ₄ζ₅³+ζ₄ζ₅²	complex faithful
ρ₂₁	4	-4	0	0	0	0	-2i	2i	0	0	^3-√5/₂	^3+√5/₂	-1-√5	-1+√5	-1	1-√5	^-3-√5/₂	1+√5	^-3+√5/₂	1	0	ζ₄³ζ₅⁴+ζ₄³ζ₅	ζ₄³ζ₅³+ζ₄³ζ₅²	0	ζ₄ζ₅⁴+ζ₄ζ₅	ζ₄ζ₅³+ζ₄ζ₅²	0	0	complex faithful
ρ₂₂	4	-4	0	0	2i	-2i	0	0	0	0	-1-√5	-1+√5	^3+√5/₂	^3-√5/₂	-1	^-3+√5/₂	1-√5	^-3-√5/₂	1+√5	1	ζ₄³ζ₅³+ζ₄³ζ₅²	0	0	ζ₄ζ₅³+ζ₄ζ₅²	0	0	ζ₄ζ₅⁴+ζ₄ζ₅	ζ₄³ζ₅⁴+ζ₄³ζ₅	complex faithful
ρ₂₃	4	-4	0	0	0	0	2i	-2i	0	0	^3+√5/₂	^3-√5/₂	-1+√5	-1-√5	-1	1+√5	^-3+√5/₂	1-√5	^-3-√5/₂	1	0	ζ₄ζ₅³+ζ₄ζ₅²	ζ₄ζ₅⁴+ζ₄ζ₅	0	ζ₄³ζ₅³+ζ₄³ζ₅²	ζ₄³ζ₅⁴+ζ₄³ζ₅	0	0	complex faithful
ρ₂₄	4	-4	0	0	-2i	2i	0	0	0	0	-1-√5	-1+√5	^3+√5/₂	^3-√5/₂	-1	^-3+√5/₂	1-√5	^-3-√5/₂	1+√5	1	ζ₄ζ₅³+ζ₄ζ₅²	0	0	ζ₄³ζ₅³+ζ₄³ζ₅²	0	0	ζ₄³ζ₅⁴+ζ₄³ζ₅	ζ₄ζ₅⁴+ζ₄ζ₅	complex faithful
ρ₂₅	4	-4	0	0	0	0	-2i	2i	0	0	^3+√5/₂	^3-√5/₂	-1+√5	-1-√5	-1	1+√5	^-3+√5/₂	1-√5	^-3-√5/₂	1	0	ζ₄³ζ₅³+ζ₄³ζ₅²	ζ₄³ζ₅⁴+ζ₄³ζ₅	0	ζ₄ζ₅³+ζ₄ζ₅²	ζ₄ζ₅⁴+ζ₄ζ₅	0	0	complex faithful
ρ₂₆	4	-4	0	0	2i	-2i	0	0	0	0	-1+√5	-1-√5	^3-√5/₂	^3+√5/₂	-1	^-3-√5/₂	1+√5	^-3+√5/₂	1-√5	1	ζ₄³ζ₅⁴+ζ₄³ζ₅	0	0	ζ₄ζ₅⁴+ζ₄ζ₅	0	0	ζ₄ζ₅³+ζ₄ζ₅²	ζ₄³ζ₅³+ζ₄³ζ₅²	complex faithful
ρ₂₇	8	-8	0	0	0	0	0	0	0	0	-2	-2	-2	-2	3	2	2	2	2	-3	0	0	0	0	0	0	0	0	orthogonal faithful
ρ₂₈	8	8	0	0	0	0	0	0	0	0	-2	-2	-2	-2	3	-2	-2	-2	-2	3	0	0	0	0	0	0	0	0	orthogonal lifted from D₅≀C₂

Permutation representations of C₂.D₅≀C₂
►On 20 points - transitive group 20T105

Generators in S₂₀

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

(11 12 13 14 15)(16 17 18 19 20)

(1 3 5 2 4)(6 8 10 7 9)

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

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

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

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

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

G:=TransitiveGroup(20,105);

Matrix representation of C₂.D₅≀C₂ ►in GL₆(𝔽₄₁)

40	0	0	0	0	0
0	40	0	0	0	0
0	0	1	0	0	0
0	0	0	1	0	0
0	0	0	0	1	0
0	0	0	0	0	1

1	0	0	0	0	0
0	1	0	0	0	0
0	0	7	34	0	0
0	0	7	40	0	0
0	0	0	0	40	36
0	0	0	0	40	35

1	0	0	0	0	0
0	1	0	0	0	0
0	0	40	7	0	0
0	0	34	7	0	0
0	0	0	0	40	36
0	0	0	0	40	35

0	40	0	0	0	0
1	0	0	0	0	0
0	0	0	0	1	6
0	0	0	0	0	1
0	0	35	1	0	0
0	0	1	0	0	0

0	9	0	0	0	0
9	0	0	0	0	0
0	0	0	0	0	1
0	0	0	0	1	6
0	0	35	1	0	0
0	0	1	0	0	0

G:=sub<GL(6,GF(41))| [40,0,0,0,0,0,0,40,0,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,0,1],[1,0,0,0,0,0,0,1,0,0,0,0,0,0,7,7,0,0,0,0,34,40,0,0,0,0,0,0,40,40,0,0,0,0,36,35],[1,0,0,0,0,0,0,1,0,0,0,0,0,0,40,34,0,0,0,0,7,7,0,0,0,0,0,0,40,40,0,0,0,0,36,35],[0,1,0,0,0,0,40,0,0,0,0,0,0,0,0,0,35,1,0,0,0,0,1,0,0,0,1,0,0,0,0,0,6,1,0,0],[0,9,0,0,0,0,9,0,0,0,0,0,0,0,0,0,35,1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1,6,0,0] >;

C₂.D₅≀C₂ in GAP, Magma, Sage, TeX

C_2.D_5\wr C_2

% in TeX

G:=Group("C2.D5wrC2");

// GroupNames label

G:=SmallGroup(400,130);

// by ID

G=gap.SmallGroup(400,130);

# by ID

G:=PCGroup([6,-2,-2,-2,-2,-5,5,48,73,55,7204,1210,496,1157,299,2897]);

// Polycyclic

G:=Group<a,b,c,d,e|a^2=b^5=c^5=d^4=1,e^2=a,a*b=b*a,a*c=c*a,a*d=d*a,a*e=e*a,b*c=c*b,d*b*d^-1=e*c*e^-1=b^2,e*b*e^-1=d*c*d^-1=c^3,e*d*e^-1=d^-1>;

// generators/relations

Export

Subgroup lattice of C₂.D₅≀C₂ in TeX
Character table of C₂.D₅≀C₂ in TeX

G = C2.D5≀C2 order 400 = 24·52

2nd central extension by C2 of D5≀C2

G = C₂.D₅≀C₂ order 400 = 2⁴·5²

2^nd central extension by C₂ of D₅≀C₂