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title | draft | tags | math |
---|---|---|---|
Groups in Abstract Algebra | false | true |
Let us have a set G
together with some binary operation *
.
We will use multipicative notation where ab = a * b
.
Let x, y, z \in G
. If \langle G, *\rangle
has the
following properties:
(xy)z = x(yz)
ex = x
x^{-1}x = e
for some fixed e \in G
, then we say that \langle G, *\rangle
is a group.
In my class, we were also told to show that xe = x
and xx^{-1} = e
.
However, these can be derived by the prior three properties.
Prove xx^{-1} = e
\begin{align*}
e &= (xx^{-1})^{-1}(xx^{-1}) \\
&= (xx^{-1})^{-1}(x(ex^{-1})) \\
&= (xx^{-1})^{-1}(x((x^{-1}x)x^{-1})) \\
&= (xx^{-1})^{-1}(x(x^{-1}x)x^{-1}) \\
&= (xx^{-1})^{-1}((xx^{-1})(xx^{-1})) \\
&= ((xx^{-1})^{-1}(xx^{-1}))(xx^{-1}) \\
&= e(xx^{-1}) \\
&= xx^{-1} \\
\end{align*}
Prove xe = x
We can use the last proof to solve this faster.
\begin{align*}
x &= ex \\
&= (xx^{-1})x \\
&= x(x^{-1}x) \\
&= xe
\end{align*}