Normal subgroup $C_{30}.C_2^3 \trianglelefteq C_2^2:D_{12}\times C_{10}$

• Label: 960.10067.4.e1
• Order: $ 2^{4} \cdot 3 \cdot 5 $
• Index: $ 2^{2} $
• Normal: Yes

Subgroup ($H$) information

Description:	$C_{30}.C_2^3$
Order:	\(240\)\(\medspace = 2^{4} \cdot 3 \cdot 5 \)
Index:	\(4\)\(\medspace = 2^{2} \)
Exponent:	\(60\)\(\medspace = 2^{2} \cdot 3 \cdot 5 \)
Generators:	$\left(\begin{array}{rr} 12 & 33 \\ 1 & 10 \end{array}\right), \left(\begin{array}{rr} 25 & 4 \\ 16 & 29 \end{array}\right), \left(\begin{array}{rr} 43 & 22 \\ 22 & 43 \end{array}\right), \left(\begin{array}{rr} 25 & 0 \\ 0 & 25 \end{array}\right), \left(\begin{array}{rr} 21 & 22 \\ 22 & 21 \end{array}\right), \left(\begin{array}{rr} 1 & 22 \\ 22 & 1 \end{array}\right)$
Derived length:	$2$

The subgroup is characteristic (hence normal), a semidirect factor, nonabelian, supersolvable (hence solvable and monomial), hyperelementary for $p = 2$, metabelian, and an A-group.

Ambient group ($G$) information

Description:	$C_2^2:D_{12}\times C_{10}$
Order:	\(960\)\(\medspace = 2^{6} \cdot 3 \cdot 5 \)
Exponent:	\(60\)\(\medspace = 2^{2} \cdot 3 \cdot 5 \)
Derived length:	$2$

The ambient group is nonabelian, supersolvable (hence solvable and monomial), hyperelementary for $p = 2$, and metabelian.

Quotient group ($Q$) structure

Description:	$C_2^2$
Order:	\(4\)\(\medspace = 2^{2} \)
Exponent:	\(2\)
Automorphism Group:	$S_3$, of order \(6\)\(\medspace = 2 \cdot 3 \)
Outer Automorphisms:	$S_3$, of order \(6\)\(\medspace = 2 \cdot 3 \)
Derived length:	$1$

The quotient is abelian (hence nilpotent, solvable, supersolvable, monomial, metabelian, and an A-group), a $p$-group (hence elementary and hyperelementary), metacyclic, and rational.

Automorphism information

Since the subgroup $H$ is characteristic, the automorphism group $\operatorname{Aut}(G)$ of the ambient group acts on $H$, yielding a homomorphism $\operatorname{res} : \operatorname{Aut}(G) \to \operatorname{Aut}(H)$. The image of $\operatorname{res}$ on the inner automorphism group $\operatorname{Inn}(G)$ is the Weyl group $W = G / Z_G(H)$.

$\operatorname{Aut}(G)$	$C_3:(C_2^6.C_2^5.C_2^4)$
$\operatorname{Aut}(H)$	$C_2^4.(D_6\times S_4)$, of order \(4608\)\(\medspace = 2^{9} \cdot 3^{2} \)
$\operatorname{res}(\operatorname{Aut}(G))$	$(D_6\times C_4^2):D_4$, of order \(1536\)\(\medspace = 2^{9} \cdot 3 \)
$\card{\operatorname{ker}(\operatorname{res})}$	\(64\)\(\medspace = 2^{6} \)
$W$	$C_2\times D_6$, of order \(24\)\(\medspace = 2^{3} \cdot 3 \)

Related subgroups

Centralizer:	$C_2^2\times C_{10}$
Normalizer:	$C_2^2:D_{12}\times C_{10}$
Complements:	$C_2^2$
Minimal over-subgroups:	$C_{30}.C_2^4$	$C_2\times D_6:C_{20}$
Maximal under-subgroups:	$C_2^2\times C_{30}$	$C_6:C_{20}$	$C_6:C_{20}$	$C_2^2\times C_{20}$	$C_6.C_2^3$

Other information

Number of conjugacy classes in this autjugacy class	$1$
Möbius function	$2$
Projective image	$C_2\times D_6$