Matrix corresponding to linear transformation is invertible iff it is onto?

Aziza · Oct 6, 2012

Let A be a nxn matrix corresponding to a linear transformation.
Is it true that A is invertible iff A is onto? (ie, the image of A is the entire codomain of the transformation)
In other words, is it sufficient to show that A is onto so as to show that A is invertible?
That was what my professor said but I am having trouble understanding this..could someone please prove this or direct me to a proof?

DonAntonio · Oct 6, 2012

Aziza said:

Let A be a nxn matrix corresponding to a linear transformation.
Is it true that A is invertible iff A is onto? (ie, the image of A is the entire codomain of the transformation)

Yes

In other words, is it sufficient to show that A is onto so as to show that A is invertible?
That was what my professor said but I am having trouble understanding this..could someone please prove this or direct me to a proof?

$$A\,\,\text{is onto}\,\,\Longleftrightarrow \dim(Im A)=n\Longleftrightarrow \dim(\ker A)=0\Longleftrightarrow A\,\,\text{ is }\,\,1-1$$

DonAntonio

Matrix corresponding to linear transformation is invertible iff it is onto?

Related to Matrix corresponding to linear transformation is invertible iff it is onto?

1. What is a matrix corresponding to a linear transformation?

2. What does it mean for a matrix to be invertible?

3. How is invertibility related to a matrix being onto?

4. Is it possible for a matrix to be onto but not invertible?

5. Why is it important for a matrix to be onto and invertible in a linear transformation?

Similar threads

Hot Threads

Recent Insights