C3xC5^2:C4 - GroupNames

class	1	2	3A	3B	4A	4B	5A	5B	5C	5D	5E	5F	6A	6B	12A	12B	12C	12D	15A	15B	15C	15D	15E	15F	15G	15H	15I	15J	15K	15L
size	1	25	1	1	25	25	4	4	4	4	4	4	25	25	25	25	25	25	4	4	4	4	4	4	4	4	4	4	4	4
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	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	1	1	linear of order 2
ρ₃	1	1	ζ₃	ζ₃²	-1	-1	1	1	1	1	1	1	ζ₃	ζ₃²	ζ₆	ζ₆⁵	ζ₆⁵	ζ₆	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃²	ζ₃²	linear of order 6
ρ₄	1	1	ζ₃	ζ₃²	1	1	1	1	1	1	1	1	ζ₃	ζ₃²	ζ₃²	ζ₃	ζ₃	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃²	ζ₃²	linear of order 3
ρ₅	1	1	ζ₃²	ζ₃	-1	-1	1	1	1	1	1	1	ζ₃²	ζ₃	ζ₆⁵	ζ₆	ζ₆	ζ₆⁵	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃	ζ₃	linear of order 6
ρ₆	1	1	ζ₃²	ζ₃	1	1	1	1	1	1	1	1	ζ₃²	ζ₃	ζ₃	ζ₃²	ζ₃²	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃	ζ₃	linear of order 3
ρ₇	1	-1	1	1	-i	i	1	1	1	1	1	1	-1	-1	-i	i	-i	i	1	1	1	1	1	1	1	1	1	1	1	1	linear of order 4
ρ₈	1	-1	1	1	i	-i	1	1	1	1	1	1	-1	-1	i	-i	i	-i	1	1	1	1	1	1	1	1	1	1	1	1	linear of order 4
ρ₉	1	-1	ζ₃	ζ₃²	-i	i	1	1	1	1	1	1	ζ₆⁵	ζ₆	ζ₄³ζ₃²	ζ₄ζ₃	ζ₄³ζ₃	ζ₄ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃²	ζ₃²	linear of order 12
ρ₁₀	1	-1	ζ₃²	ζ₃	i	-i	1	1	1	1	1	1	ζ₆	ζ₆⁵	ζ₄ζ₃	ζ₄³ζ₃²	ζ₄ζ₃²	ζ₄³ζ₃	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃	ζ₃	linear of order 12
ρ₁₁	1	-1	ζ₃	ζ₃²	i	-i	1	1	1	1	1	1	ζ₆⁵	ζ₆	ζ₄ζ₃²	ζ₄³ζ₃	ζ₄ζ₃	ζ₄³ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃²	ζ₃²	linear of order 12
ρ₁₂	1	-1	ζ₃²	ζ₃	-i	i	1	1	1	1	1	1	ζ₆	ζ₆⁵	ζ₄³ζ₃	ζ₄ζ₃²	ζ₄³ζ₃²	ζ₄ζ₃	ζ₃	ζ₃	ζ₃	ζ₃	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃²	ζ₃	ζ₃	linear of order 12
ρ₁₃	4	0	4	4	0	0	-1	-1	4	-1	-1	-1	0	0	0	0	0	0	-1	-1	-1	-1	-1	-1	-1	-1	-1	4	-1	4	orthogonal lifted from F₅
ρ₁₄	4	0	4	4	0	0	-1	4	-1	-1	-1	-1	0	0	0	0	0	0	-1	-1	-1	-1	-1	-1	-1	-1	4	-1	4	-1	orthogonal lifted from F₅
ρ₁₅	4	0	4	4	0	0	^3+√5/₂	-1	-1	^3-√5/₂	-1-√5	-1+√5	0	0	0	0	0	0	^3+√5/₂	^3-√5/₂	-1-√5	-1+√5	^3+√5/₂	^3-√5/₂	-1-√5	-1+√5	-1	-1	-1	-1	orthogonal lifted from C₅²⋊C₄
ρ₁₆	4	0	4	4	0	0	-1-√5	-1	-1	-1+√5	^3-√5/₂	^3+√5/₂	0	0	0	0	0	0	-1-√5	-1+√5	^3-√5/₂	^3+√5/₂	-1-√5	-1+√5	^3-√5/₂	^3+√5/₂	-1	-1	-1	-1	orthogonal lifted from C₅²⋊C₄
ρ₁₇	4	0	4	4	0	0	-1+√5	-1	-1	-1-√5	^3+√5/₂	^3-√5/₂	0	0	0	0	0	0	-1+√5	-1-√5	^3+√5/₂	^3-√5/₂	-1+√5	-1-√5	^3+√5/₂	^3-√5/₂	-1	-1	-1	-1	orthogonal lifted from C₅²⋊C₄
ρ₁₈	4	0	4	4	0	0	^3-√5/₂	-1	-1	^3+√5/₂	-1+√5	-1-√5	0	0	0	0	0	0	^3-√5/₂	^3+√5/₂	-1+√5	-1-√5	^3-√5/₂	^3+√5/₂	-1+√5	-1-√5	-1	-1	-1	-1	orthogonal lifted from C₅²⋊C₄
ρ₁₉	4	0	-2+2√-3	-2-2√-3	0	0	-1	4	-1	-1	-1	-1	0	0	0	0	0	0	ζ₆	ζ₆	ζ₆	ζ₆	ζ₆⁵	ζ₆⁵	ζ₆⁵	ζ₆⁵	-2+2√-3	ζ₆⁵	-2-2√-3	ζ₆	complex lifted from C₃×F₅
ρ₂₀	4	0	-2+2√-3	-2-2√-3	0	0	-1	-1	4	-1	-1	-1	0	0	0	0	0	0	ζ₆	ζ₆	ζ₆	ζ₆	ζ₆⁵	ζ₆⁵	ζ₆⁵	ζ₆⁵	ζ₆⁵	-2+2√-3	ζ₆	-2-2√-3	complex lifted from C₃×F₅
ρ₂₁	4	0	-2-2√-3	-2+2√-3	0	0	-1	-1	4	-1	-1	-1	0	0	0	0	0	0	ζ₆⁵	ζ₆⁵	ζ₆⁵	ζ₆⁵	ζ₆	ζ₆	ζ₆	ζ₆	ζ₆	-2-2√-3	ζ₆⁵	-2+2√-3	complex lifted from C₃×F₅
ρ₂₂	4	0	-2-2√-3	-2+2√-3	0	0	-1	4	-1	-1	-1	-1	0	0	0	0	0	0	ζ₆⁵	ζ₆⁵	ζ₆⁵	ζ₆⁵	ζ₆	ζ₆	ζ₆	ζ₆	-2-2√-3	ζ₆	-2+2√-3	ζ₆⁵	complex lifted from C₃×F₅
ρ₂₃	4	0	-2-2√-3	-2+2√-3	0	0	^3-√5/₂	-1	-1	^3+√5/₂	-1+√5	-1-√5	0	0	0	0	0	0	ζ₃ζ₅³+ζ₃ζ₅²+2ζ₃	ζ₃ζ₅⁴+ζ₃ζ₅+2ζ₃	2ζ₃ζ₅⁴+2ζ₃ζ₅	2ζ₃ζ₅³+2ζ₃ζ₅²	ζ₃²ζ₅³+ζ₃²ζ₅²+2ζ₃²	ζ₃²ζ₅⁴+ζ₃²ζ₅+2ζ₃²	2ζ₃²ζ₅⁴+2ζ₃²ζ₅	2ζ₃²ζ₅³+2ζ₃²ζ₅²	ζ₆	ζ₆	ζ₆⁵	ζ₆⁵	complex faithful
ρ₂₄	4	0	-2+2√-3	-2-2√-3	0	0	-1+√5	-1	-1	-1-√5	^3+√5/₂	^3-√5/₂	0	0	0	0	0	0	2ζ₃²ζ₅⁴+2ζ₃²ζ₅	2ζ₃²ζ₅³+2ζ₃²ζ₅²	ζ₃²ζ₅⁴+ζ₃²ζ₅+2ζ₃²	ζ₃²ζ₅³+ζ₃²ζ₅²+2ζ₃²	2ζ₃ζ₅⁴+2ζ₃ζ₅	2ζ₃ζ₅³+2ζ₃ζ₅²	ζ₃ζ₅⁴+ζ₃ζ₅+2ζ₃	ζ₃ζ₅³+ζ₃ζ₅²+2ζ₃	ζ₆⁵	ζ₆⁵	ζ₆	ζ₆	complex faithful
ρ₂₅	4	0	-2-2√-3	-2+2√-3	0	0	-1+√5	-1	-1	-1-√5	^3+√5/₂	^3-√5/₂	0	0	0	0	0	0	2ζ₃ζ₅⁴+2ζ₃ζ₅	2ζ₃ζ₅³+2ζ₃ζ₅²	ζ₃ζ₅⁴+ζ₃ζ₅+2ζ₃	ζ₃ζ₅³+ζ₃ζ₅²+2ζ₃	2ζ₃²ζ₅⁴+2ζ₃²ζ₅	2ζ₃²ζ₅³+2ζ₃²ζ₅²	ζ₃²ζ₅⁴+ζ₃²ζ₅+2ζ₃²	ζ₃²ζ₅³+ζ₃²ζ₅²+2ζ₃²	ζ₆	ζ₆	ζ₆⁵	ζ₆⁵	complex faithful
ρ₂₆	4	0	-2+2√-3	-2-2√-3	0	0	^3-√5/₂	-1	-1	^3+√5/₂	-1+√5	-1-√5	0	0	0	0	0	0	ζ₃²ζ₅³+ζ₃²ζ₅²+2ζ₃²	ζ₃²ζ₅⁴+ζ₃²ζ₅+2ζ₃²	2ζ₃²ζ₅⁴+2ζ₃²ζ₅	2ζ₃²ζ₅³+2ζ₃²ζ₅²	ζ₃ζ₅³+ζ₃ζ₅²+2ζ₃	ζ₃ζ₅⁴+ζ₃ζ₅+2ζ₃	2ζ₃ζ₅⁴+2ζ₃ζ₅	2ζ₃ζ₅³+2ζ₃ζ₅²	ζ₆⁵	ζ₆⁵	ζ₆	ζ₆	complex faithful
ρ₂₇	4	0	-2-2√-3	-2+2√-3	0	0	-1-√5	-1	-1	-1+√5	^3-√5/₂	^3+√5/₂	0	0	0	0	0	0	2ζ₃ζ₅³+2ζ₃ζ₅²	2ζ₃ζ₅⁴+2ζ₃ζ₅	ζ₃ζ₅³+ζ₃ζ₅²+2ζ₃	ζ₃ζ₅⁴+ζ₃ζ₅+2ζ₃	2ζ₃²ζ₅³+2ζ₃²ζ₅²	2ζ₃²ζ₅⁴+2ζ₃²ζ₅	ζ₃²ζ₅³+ζ₃²ζ₅²+2ζ₃²	ζ₃²ζ₅⁴+ζ₃²ζ₅+2ζ₃²	ζ₆	ζ₆	ζ₆⁵	ζ₆⁵	complex faithful
ρ₂₈	4	0	-2+2√-3	-2-2√-3	0	0	^3+√5/₂	-1	-1	^3-√5/₂	-1-√5	-1+√5	0	0	0	0	0	0	ζ₃²ζ₅⁴+ζ₃²ζ₅+2ζ₃²	ζ₃²ζ₅³+ζ₃²ζ₅²+2ζ₃²	2ζ₃²ζ₅³+2ζ₃²ζ₅²	2ζ₃²ζ₅⁴+2ζ₃²ζ₅	ζ₃ζ₅⁴+ζ₃ζ₅+2ζ₃	ζ₃ζ₅³+ζ₃ζ₅²+2ζ₃	2ζ₃ζ₅³+2ζ₃ζ₅²	2ζ₃ζ₅⁴+2ζ₃ζ₅	ζ₆⁵	ζ₆⁵	ζ₆	ζ₆	complex faithful
ρ₂₉	4	0	-2+2√-3	-2-2√-3	0	0	-1-√5	-1	-1	-1+√5	^3-√5/₂	^3+√5/₂	0	0	0	0	0	0	2ζ₃²ζ₅³+2ζ₃²ζ₅²	2ζ₃²ζ₅⁴+2ζ₃²ζ₅	ζ₃²ζ₅³+ζ₃²ζ₅²+2ζ₃²	ζ₃²ζ₅⁴+ζ₃²ζ₅+2ζ₃²	2ζ₃ζ₅³+2ζ₃ζ₅²	2ζ₃ζ₅⁴+2ζ₃ζ₅	ζ₃ζ₅³+ζ₃ζ₅²+2ζ₃	ζ₃ζ₅⁴+ζ₃ζ₅+2ζ₃	ζ₆⁵	ζ₆⁵	ζ₆	ζ₆	complex faithful
ρ₃₀	4	0	-2-2√-3	-2+2√-3	0	0	^3+√5/₂	-1	-1	^3-√5/₂	-1-√5	-1+√5	0	0	0	0	0	0	ζ₃ζ₅⁴+ζ₃ζ₅+2ζ₃	ζ₃ζ₅³+ζ₃ζ₅²+2ζ₃	2ζ₃ζ₅³+2ζ₃ζ₅²	2ζ₃ζ₅⁴+2ζ₃ζ₅	ζ₃²ζ₅⁴+ζ₃²ζ₅+2ζ₃²	ζ₃²ζ₅³+ζ₃²ζ₅²+2ζ₃²	2ζ₃²ζ₅³+2ζ₃²ζ₅²	2ζ₃²ζ₅⁴+2ζ₃²ζ₅	ζ₆	ζ₆	ζ₆⁵	ζ₆⁵	complex faithful

Permutation representations of C₃×C₅²⋊C₄
►On 30 points - transitive group 30T73

Generators in S₃₀

(1 13 8)(2 14 9)(3 15 10)(4 11 6)(5 12 7)(16 26 21)(17 27 22)(18 28 23)(19 29 24)(20 30 25)

(1 2 3 4 5)(6 7 8 9 10)(11 12 13 14 15)(16 17 18 19 20)(21 22 23 24 25)(26 27 28 29 30)

(1 2 3 4 5)(6 7 8 9 10)(11 12 13 14 15)(16 20 19 18 17)(21 25 24 23 22)(26 30 29 28 27)

(1 16)(2 19 5 18)(3 17 4 20)(6 25 10 22)(7 23 9 24)(8 21)(11 30 15 27)(12 28 14 29)(13 26)

G:=sub<Sym(30)| (1,13,8)(2,14,9)(3,15,10)(4,11,6)(5,12,7)(16,26,21)(17,27,22)(18,28,23)(19,29,24)(20,30,25), (1,2,3,4,5)(6,7,8,9,10)(11,12,13,14,15)(16,17,18,19,20)(21,22,23,24,25)(26,27,28,29,30), (1,2,3,4,5)(6,7,8,9,10)(11,12,13,14,15)(16,20,19,18,17)(21,25,24,23,22)(26,30,29,28,27), (1,16)(2,19,5,18)(3,17,4,20)(6,25,10,22)(7,23,9,24)(8,21)(11,30,15,27)(12,28,14,29)(13,26)>;

G:=Group( (1,13,8)(2,14,9)(3,15,10)(4,11,6)(5,12,7)(16,26,21)(17,27,22)(18,28,23)(19,29,24)(20,30,25), (1,2,3,4,5)(6,7,8,9,10)(11,12,13,14,15)(16,17,18,19,20)(21,22,23,24,25)(26,27,28,29,30), (1,2,3,4,5)(6,7,8,9,10)(11,12,13,14,15)(16,20,19,18,17)(21,25,24,23,22)(26,30,29,28,27), (1,16)(2,19,5,18)(3,17,4,20)(6,25,10,22)(7,23,9,24)(8,21)(11,30,15,27)(12,28,14,29)(13,26) );

G=PermutationGroup([[(1,13,8),(2,14,9),(3,15,10),(4,11,6),(5,12,7),(16,26,21),(17,27,22),(18,28,23),(19,29,24),(20,30,25)], [(1,2,3,4,5),(6,7,8,9,10),(11,12,13,14,15),(16,17,18,19,20),(21,22,23,24,25),(26,27,28,29,30)], [(1,2,3,4,5),(6,7,8,9,10),(11,12,13,14,15),(16,20,19,18,17),(21,25,24,23,22),(26,30,29,28,27)], [(1,16),(2,19,5,18),(3,17,4,20),(6,25,10,22),(7,23,9,24),(8,21),(11,30,15,27),(12,28,14,29),(13,26)]])

G:=TransitiveGroup(30,73);

Matrix representation of C₃×C₅²⋊C₄ ►in GL₄(𝔽₆₁) generated by

13	0	0	0
0	13	0	0
0	0	13	0
0	0	0	13

60	1	0	0
16	44	0	0
59	44	18	18
17	1	43	60

0	18	0	0
44	17	0	0
44	17	0	1
1	18	60	43

0	0	60	1
18	1	59	43
0	0	60	0
17	1	60	0

G:=sub<GL(4,GF(61))| [13,0,0,0,0,13,0,0,0,0,13,0,0,0,0,13],[60,16,59,17,1,44,44,1,0,0,18,43,0,0,18,60],[0,44,44,1,18,17,17,18,0,0,0,60,0,0,1,43],[0,18,0,17,0,1,0,1,60,59,60,60,1,43,0,0] >;

C₃×C₅²⋊C₄ in GAP, Magma, Sage, TeX

C_3\times C_5^2\rtimes C_4

% in TeX

G:=Group("C3xC5^2:C4");

// GroupNames label

G:=SmallGroup(300,31);

// by ID

G=gap.SmallGroup(300,31);

# by ID

G:=PCGroup([5,-2,-3,-2,-5,-5,30,723,173,3004,1014]);

// Polycyclic

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

// generators/relations

Export

Subgroup lattice of C₃×C₅²⋊C₄ in TeX
Character table of C₃×C₅²⋊C₄ in TeX

G = C3×C52⋊C4 order 300 = 22·3·52

Direct product of C3 and C52⋊C4

G = C₃×C₅²⋊C₄ order 300 = 2²·3·5²

Direct product of C₃ and C₅²⋊C₄