codimension of the derived algebra of a nilpotent Lie algebra

Question

Let $\mathcal g$ be a nilpotent Lie algebra with $dim>1$. Why it is impossible that $codim \ \mathcal g'=1$?

Answer 1

Let $L$ be a nilpotent Lie algebra. It is well-known that $L$ is generated by the representatives of $L/[L,L]$. If this space would be $1$-dimensional, $L$ would be generated by $1$ element, and hence would be abelian. But this is a contradiction, because then $[L,L]=0$. It follwos that $\dim L/[L,L]\ge 2$.

Answer 2

Suppose that $codim g'=1$. Let $Vect\{x\}$ be a supplementary space of $g'$. Write $g'=W+[g,g']$ and $W$ is not trivial. Let $u,v\in g$ you can write $u=cx+u', u'\in g'$ and $v=dx+v', v'\in g'$. $[u,v] =[cx+u',dx+v']= c[x,v']+d[u',x]+[u',v']$. Since $u',v'\in g'$ we deduce that $[u,v]\in [g,g']$ thus the vector space generated by $[u,v], u,v\in g$ does not contain $W$. Contradiction.