It is used to map vectors from the domain to the codomain.

It is unrelated to the transformation.

It represents the inverse of the transformation.

It defines the domain of the transformation.

When vectors are represented in any arbitrary basis.

When vectors are represented in standard coordinates.

When vectors are represented in polar coordinates.

When vectors are not represented in any coordinate system.

A single vector that spans the entire space.

A set of vectors that cannot represent any vector in Rn.

A set of vectors that can represent any vector in Rn as a linear combination.

A set of linearly dependent vectors.

It should only work with standard coordinates.

It should map vectors to different points depending on the coordinate system.

It should map vectors to the same point regardless of the coordinate system.

It should not work with nonstandard coordinates.

To convert vectors from one basis to another.

To find the inverse of a transformation matrix.

To represent vectors in polar coordinates.

To map vectors to a different dimension.

D = A + C

D = C * A * C

D = C inverse * A * C

D = A * C inverse

Because it is a diagonal matrix.

Because it is a zero matrix.

Because its columns are linearly independent.

Because it is a square matrix.