is
a nonempty set of elements
. If
then
along with a group multiplication operation · (called the product)
satisfying the following four conditions
A Level Maths Notes: FP3 – Properties of Groups – A Summary
A groupis
a nonempty set of elements
. Ifthen
along with a group multiplication operation · (called the product)
satisfying the following four conditions
1. Closure. If
then
is
also in
2. Associativity. The group multiplication is associative, a · (b · c) = (a · b) · c
3. The identity, denoted
is
a member of the group. There exists an element
such
that
for
all
(The
identity is also sometimes denoted I or even simply
1.)
4. Inverses . For every
there
exists an inverse element
such
that
Note that the term “group multiplication” does not
have to denote ordinary multiplication. For example, the set of all
integers under addition forms a group where 0
is the identity
element and the integer
is
the ‘inverse’ of the number
More or less, the definition of a group is essentially a common sense definition. However, it is remarkable that so much structure can arise out of such a basic definition. This is very typical of mathematics. A definition is used to reduce things down to the least necessary set of fundamental ideas needed to be useful, ie to capture the essence of the system. Then the rest is built up on top of the definition through theorems and such.
The above four properties can be represented compactly
in a group table, shown below for the group G consisting of the
elements
|
· |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
a^2 r |
|
|
|
|
|
|
Several points must be noted:
Each element appears once in each row and each column, and none but the six elements of the group appear in the table.
Because the identity element
appears
once in each column, every element has an inverse.
The result of multiplying any element with the identity is the element itself.
