Image and kernel
When dealing with linear mappings, we will often encounter two important terms: the image and the kernel, both of which are vector subspaces with rather important properties.
The kernel (sometimes called the null space) is 0 (the zero vector) and is produced by a linear map, as follows:
And the image (sometimes called the range) of T is defined as follows:
such that 
.
V and W are also sometimes known as the domain and codomain of T.
It is best to think of the kernel as a linear mapping that maps the vectors 
to 
. The image, however, is the set of all possible linear combinations of 
that can be mapped to the set of vectors 
.
The Rank-Nullity theorem (sometimes referred to as the fundamental theorem of linear mappings) states that given two vector spaces V and W and a linear mapping 
, the following will remain true:
.