Matrices and Bilinear Forms on Inner Product Spaces in Dirac Notation
Now, armed with Dirac notation, we can come back and reconsider matrices and forms. For our background, we’ve got an inner product space. That is, a vector space , equipped with a choice of a particular inner product .
Now, any linear transformation gives us a bilinear form. In our new notation we can write it as . Given a basis we can write down the matrix . Then if we’re given vectors (notice how the Dirac notation can be rather context-dependent) and , we can put them together with to find
So this is indeed the same old matrix of the form.
We can read a lot of information about the form off of its matrix. As we proceed we’ll illustrate these various properties of bilinear forms, using the Dirac notation to (hopefully) make the ideas clearer.