Elementary Row Operation on Augmented Matrix leads to Equivalent System of Simultaneous Linear Equations/Corollary 5

Corollary to Elementary Row Operation on Augmented Matrix leads to Equivalent System of Simultaneous Linear Equations
Let $S$ be a system of $n$ homogeneous simultaneous linear equations in $n$ variables:


 * $\ds \forall i \in \set {1, 2, \ldots, n}: \sum_{j \mathop = 1}^n \alpha_{i j} x_j = 0$

$S$ has a non-trivial solution its reduced echelon matrix $R$ is not equal to the unit matrix $\mathbf I_n$.

Proof
Let $\begin {pmatrix} \mathbf R & \mathbf 0 \end {pmatrix}$ be a reduced echelon matrix derived from $\begin {pmatrix} \mathbf A & \mathbf 0 \end {pmatrix}$.

Let the number of non-zero rows of $\begin {pmatrix} \mathbf R & \mathbf 0 \end {pmatrix}$ be $l$.


 * $R = \mathbf I_n$.

Then $l = n$.

From Corollary 4, in this case the only solution to $S$ is the trivial solution.

Let $R \ne \mathbf I_n$.

As $R$ is a reduced echelon matrix, it must have at least one zero row.

Thus $l < n$.

From Corollary 3, in this case there is at least one non-trivial solution.