is one of the two groups of group
order 4. Like 
,
it is Abelian, but unlike 
, it is a cyclic.
Examples include the point groups 
(note that the same notation is used for the abstract cyclic
group 
and the point group isomorphic to it) and 
, the integers modulo 4 under addition (
), and the modulo
multiplication groups 
and 
(which are the only two modulo multiplication groups
isomorphic to it).
The cycle graph of 
is shown above, and the cycle
index is given by
 |
(1)
|
The multiplication table for this group may be written in three equivalent ways by permuting the symbols used for the group elements (Cotton 1990, p. 11). One such table is illustrated above and enumerated below.
 | 1 |  |  |  |
| 1 | 1 |  |  |  |
 |  |  |  | 1 |
 |  |  | 1 |  |
 |  | 1 |  |  |
The conjugacy classes of 
are 
, 
, 
, and 
. In addition to the trivial group and the entire group,
also has 
as a subgroup which, because the group is Abelian, is
normal. 
is therefore not a simple group.
Elements 
of the group satisfy 
,
where 1 is the identity element, and two of the
elements satisfy 
.
The group may be given a reducible representation using complex numbers
 |  |  |
(2)
|
 |  |  |
(3)
|
 |  |  |
(4)
|
 |  |  |
(5)
|
 |  | ![[1 0; 0 1]](/images/equations/CyclicGroupC4/Inline55.svg) |
(6)
|
 |  | ![[0 -1; 1 0]](/images/equations/CyclicGroupC4/Inline58.svg) |
(7)
|
 |  | ![[-1 0; 0 -1]](/images/equations/CyclicGroupC4/Inline61.svg) |
(8)
|
 |  | ![[0 1; -1 0].](/images/equations/CyclicGroupC4/Inline64.svg) |
(9)
|
