Cross Product Of Vector With Itself Is Zero - ProofWiki

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Theorem

Let $\mathbf x$ be a vector in a vector space of $3$ dimensions:

$\mathbf x = x_i \mathbf i + x_j \mathbf j + x_k \mathbf k$

Then:

$\mathbf x \times \mathbf x = \mathbf 0$

where $\times$ denotes vector cross product.

$\ds \mathbf x \times \mathbf x$	$=$	$\ds \begin {vmatrix} \mathbf i & \mathbf j & \mathbf k \\ x_i & x_j & x_k \\ x_i & x_j & x_k \end {vmatrix}$	Definition of Vector Cross Product
$\ds $	$=$	$\ds \mathbf 0$	Square Matrix with Duplicate Rows has Zero Determinant

$\blacksquare$

By definition, a vector is parallel to itself.

The result follows from Cross Product of Parallel Vectors.

$\blacksquare$

\(\ds \mathbf x \times \mathbf x\)	\(=\)	\(\ds \begin {vmatrix} \mathbf i & \mathbf j & \mathbf k \\ x_i & x_j & x_k \\ x_i & x_j & x_k \end {vmatrix}\)	Definition of Vector Cross Product
\(\ds \)	\(=\)	\(\ds \mathbf 0\)	Square Matrix with Duplicate Rows has Zero Determinant