Abstract group 1935.4: $C_3\times C_{645}$

• Label: 1935.4
• Order: \( 3^{2} \cdot 5 \cdot 43 \)
• Exponent: \( 3 \cdot 5 \cdot 43 \)
• Abelian: yes
• $\card{\Aut(G)}$: \( 2^{7} \cdot 3^{2} \cdot 7 \)
• Perm deg.: $54$
• Trans deg.: $1935$
• Rank: $2$

Group information

Description:	$C_3\times C_{645}$
Order:	\(1935\)\(\medspace = 3^{2} \cdot 5 \cdot 43 \)
Exponent:	\(645\)\(\medspace = 3 \cdot 5 \cdot 43 \)
Automorphism group:	$C_2\times C_{84}\times \GL(2,3)$, of order \(8064\)\(\medspace = 2^{7} \cdot 3^{2} \cdot 7 \)
Composition factors:	$C_3$ x 2, $C_5$, $C_{43}$
Nilpotency class:	$1$
Derived length:	$1$

This group is abelian (hence nilpotent, solvable, supersolvable, monomial, metabelian, and an A-group), elementary for $p = 3$ (hence hyperelementary), and metacyclic.

Group statistics

Order	1	3	5	15	43	129	215	645
Elements	1	8	4	32	42	336	168	1344	1935
Conjugacy classes	1	8	4	32	42	336	168	1344	1935
Divisions	1	4	1	4	1	4	1	4	20
Autjugacy classes	1	1	1	1	1	1	1	1	8

Minimal presentations

Permutation degree:	$54$
Transitive degree:	$1935$
Rank:	$2$
Inequivalent generating pairs:	$264$

Minimal degrees of faithful linear representations

	Over $\mathbb{C}$	Over $\mathbb{R}$	Over $\mathbb{Q}$
Irreducible	none	not computed	none
Arbitrary	2	not computed	not computed

Constructions

Presentation:	Abelian group $\langle a, b \mid a^{3}=b^{645}=1 \rangle$
Permutation group:	Degree $54$ $\langle(1,3,2), (4,6,5), (7,11,10,9,8), (12,54,53,52,51,50,49,48,47,46,45,44,43,42,41,40,39,38,37,36,35,34,33,32,31,30,29,28,27,26,25,24,23,22,21,20,19,18,17,16,15,14,13) \!\cdots\! \rangle$
Direct product:	$C_3$ ${}^2$ $\, \times\, $ $C_5$ $\, \times\, $ $C_{43}$
Semidirect product:	not isomorphic to a non-trivial semidirect product
Trans. wreath product:	not isomorphic to a non-trivial transitive wreath product

Elements of the group are displayed as words in the presentation generators from the presentation above.

Homology

Primary decomposition:	$C_{3}^{2} \times C_{5} \times C_{43}$
Schur multiplier:	$C_{3}$
Commutator length:	$0$

Subgroups

There are 24 subgroups, all normal (8 characteristic).

Characteristic subgroups are shown in this color. Normal (but not characteristic) subgroups are shown in this color.

Special subgroups

Center:	$Z \simeq$ $C_3\times C_{645}$	$G/Z \simeq$ $C_1$
Commutator:	$G' \simeq$ $C_1$	$G/G' \simeq$ $C_3\times C_{645}$
Frattini:	$\Phi \simeq$ $C_1$	$G/\Phi \simeq$ $C_3\times C_{645}$
Fitting:	$\operatorname{Fit} \simeq$ $C_3\times C_{645}$	$G/\operatorname{Fit} \simeq$ $C_1$
Radical:	$R \simeq$ $C_3\times C_{645}$	$G/R \simeq$ $C_1$
Socle:	$\operatorname{soc} \simeq$ $C_3\times C_{645}$	$G/\operatorname{soc} \simeq$ $C_1$
3-Sylow subgroup:	$P_{ 3 } \simeq$ $C_3^2$
5-Sylow subgroup:	$P_{ 5 } \simeq$ $C_5$
43-Sylow subgroup:	$P_{ 43 } \simeq$ $C_{43}$

Hi

Subgroup diagram and profile

Classes of subgroups up to conjugation

Classes of subgroups up to automorphism

Normal subgroups

Normal subgroups up to automorphism

For the default diagram, subgroups are sorted vertically by the number of prime divisors (counted with multiplicity) in their orders.
To see subgroups sorted vertically by order instead, check this box.

Sorry, your browser does not support the subgroup diagram.

Subgroup information Click on a subgroup in the diagram to see information about it.

See a full page version of the diagram

See a full page version of the diagram

See a full page version of the diagram

See a full page version of the diagram

Classes of subgroups up to conjugation

Order 1935: $C_3\times C_{645}$

Order 645: $C_{645}$ x 4

Order 387: $C_3\times C_{129}$

Order 215: $C_{215}$

Order 129: $C_{129}$ x 4

Order 45: $C_3\times C_{15}$

Order 43: $C_{43}$

Order 15: $C_{15}$ x 4

Order 9: $C_3^2$

Order 5: $C_5$

Order 3: $C_3$ x 4

Order 1: $C_1$

Classes of subgroups up to automorphism

Order 1935: $C_3\times C_{645}$

Order 645: $C_{645}$

Order 387: $C_3\times C_{129}$

Order 215: $C_{215}$

Order 129: $C_{129}$

Order 45: $C_3\times C_{15}$

Order 43: $C_{43}$

Order 15: $C_{15}$

Order 9: $C_3^2$

Order 5: $C_5$

Order 3: $C_3$

Order 1: $C_1$

Normal subgroups (quotient in parentheses)

Order 1935: $C_3\times C_{645}$ ($C_1$)

Order 645: $C_{645}$ ($C_3$) x 4

Order 387: $C_3\times C_{129}$ ($C_5$)

Order 215: $C_{215}$ ($C_3^2$)

Order 129: $C_{129}$ ($C_{15}$) x 4

Order 45: $C_3\times C_{15}$ ($C_{43}$)

Order 43: $C_{43}$ ($C_3\times C_{15}$)

Order 15: $C_{15}$ ($C_{129}$) x 4

Order 9: $C_3^2$ ($C_{215}$)

Order 5: $C_5$ ($C_3\times C_{129}$)

Order 3: $C_3$ ($C_{645}$) x 4

Order 1: $C_1$ ($C_3\times C_{645}$)

Normal subgroups up to automorphism (quotient in parentheses)

Order 1935: $C_3\times C_{645}$ ($C_1$)

Order 645: $C_{645}$ ($C_3$)

Order 387: $C_3\times C_{129}$ ($C_5$)

Order 215: $C_{215}$ ($C_3^2$)

Order 129: $C_{129}$ ($C_{15}$)

Order 45: $C_3\times C_{15}$ ($C_{43}$)

Order 43: $C_{43}$ ($C_3\times C_{15}$)

Order 15: $C_{15}$ ($C_{129}$)

Order 9: $C_3^2$ ($C_{215}$)

Order 5: $C_5$ ($C_3\times C_{129}$)

Order 3: $C_3$ ($C_{645}$)

Order 1: $C_1$ ($C_3\times C_{645}$)

Series

Derived series	$C_3\times C_{645}$	$\rhd$	$C_1$
Chief series	$C_3\times C_{645}$	$\rhd$	$C_{645}$	$\rhd$	$C_{215}$	$\rhd$	$C_{43}$	$\rhd$	$C_1$
Lower central series	$C_3\times C_{645}$	$\rhd$	$C_1$
Upper central series	$C_1$	$\lhd$	$C_3\times C_{645}$

Character theory

Complex character table

The $1935 \times 1935$ character table is not available for this group.

Rational character table

The $20 \times 20$ rational character table is not available for this group.