User:IssaRice/Linear algebra/Equivalent statements for injectivity and surjectivity

Let ${\displaystyle A}$ be an ${\displaystyle m\times n}$ matrix. That's a matrix with ${\displaystyle m}$ rows and ${\displaystyle n}$ columns, which you can also think of as a map ${\displaystyle \mathbf {R} ^{n}\to \mathbf {R} ^{m}}$.

Injective	Surjective	Bijective
${\displaystyle A}$ is injective	${\displaystyle A}$ is surjective	${\displaystyle A}$ is bijective
${\displaystyle A}$ has a left inverse	${\displaystyle A}$ has a right inverse	${\displaystyle A}$ has both a left and right inverse (which turn out to be the same)
for each ${\displaystyle b}$, the equation ${\displaystyle Ax=b}$ has at most one solution (in other words, a solution may not exist, but if it does, it is unique)	for each ${\displaystyle b}$, the equation ${\displaystyle Ax=b}$ has at least one solution (in other words, a solution always exists, but it may not be unique)	for each ${\displaystyle b}$, the equation ${\displaystyle Ax=b}$ has exactly one (in other words, a solution always exists, and it is unique)
the columns of ${\displaystyle A}$ are linearly independent	the columns of ${\displaystyle A}$ span ${\displaystyle \mathbf {R} ^{m}}$	the columns of ${\displaystyle A}$ are a basis of ${\displaystyle \mathbf {R} ^{m}}$
the rows of ${\displaystyle A}$ span ${\displaystyle \mathbf {R} ^{n}}$	the rows of ${\displaystyle A}$ are linearly independent	the rows of ${\displaystyle A}$ are a basis of ${\displaystyle \mathbf {R} ^{n}}$
		${\displaystyle \det(A)\neq 0}$
${\displaystyle A}$ has rank ${\displaystyle n}$	${\displaystyle A}$ has rank ${\displaystyle m}$	${\displaystyle A}$ has rank ${\displaystyle n=m}$
in the row echelon form of ${\displaystyle A}$, there is a pivot in every column	in the row echelon form of ${\displaystyle A}$, there is a pivot in every row	in the row echelon form of ${\displaystyle A}$, there is a pivot in every column and every row
${\displaystyle \operatorname {null} A=\{0\}}$	${\displaystyle \operatorname {range} A=\mathbf {R} ^{m}}$
${\displaystyle \dim \operatorname {null} A=0}$	${\displaystyle \dim \operatorname {null} A=n-m}$
${\displaystyle \dim \operatorname {range} A=n}$	${\displaystyle \dim \operatorname {range} A=m}$

Characterizations of injectivity

left inverse

Ax=b has at most one solution

linearly independent columns

spanning rows

rank n

pivot in every column

null space = {0}

zero-dimensional null space

dimension of range = n

External links

• http://davidjekel.com/wp-content/uploads/2019/07/Linear_Algebra_Equivalences.pdf
• Hubbard and Hubbard's Vector Calculus, Linear Algebra, and Differential Forms: A Unified Approach also has a similar table in section 2.5 (kernels, images, and the dimension formula).