Definition:Unit Matrix

Definition
Let $R$ be a ring with unity whose zero is $0_R$ and whose unity is $1_R$.

Let $\mathcal M_R \left({n}\right)$ be the $n \times n$ matrix space over $R$.

Then the unit matrix (of order $n$) of the ring $\left({\mathcal M_R \left({n}\right), +, \times}\right)$ of $n \times n$ square matrices over $R$ is defined as:


 * $\mathbf I_n := \left[{a}\right]_n: a_{i j} = \delta_{i j}$

where $\delta_{i j}$ is the Kronecker delta for $\mathcal M_R \left({n}\right)$.

That is, it is the square matrix where every element on the diagonal is equal to $1_R$, and whose other entries all are $0_R$.

Also known as
Some sources call this the identity matrix.

This matrix is variously denoted: $\mathbf 1$ and $\mathbf 1_n$ can frequently be found.

In physics and mechanics it is common to see $\mathbf I$ used specifically to denote the $3 \times 3$ unit matrix.

Also see

 * Unit Matrix is Unity of Ring of Square Matrices, which demonstrates the equivalence of these definitions.


 * Compare with, but do not confuse with, the Definition:Ones Matrix.