Traditional functions are only defined for scalar inputs.

Linear transformations can map vectors to different types of vectors or scalars.

Traditional functions can only map numbers, not vectors.

Linear transformations always return the same type of vector.

The transformation must map vectors to matrices.

The transformation must be reversible.

The transformation must map vectors to scalars.

The transformation of a scalar multiple of a vector is the same as the scalar multiple of the transformation.

By confirming the transformation maps vectors to scalars.

By checking if the transformation is reversible.

By ensuring the transformation is commutative with scalar multiplication and vector addition.

By checking if the transformation is associative.

The transformation is associative.

The transformation can only map to the same vector space.

The transformation must be reversible.

The order of operations does not affect the outcome.

As an m by n matrix.

As a polynomial function.

As a vector addition.

As a scalar multiplication.

To find the inverse of the transformation.

To map the transformation back to the original vector space.

To verify the linearity of the transformation.

To determine the columns of the transformation matrix.

Calculating derivatives.

Reflecting and rotating coordinate systems.

Solving quadratic equations.

Finding the roots of polynomials.