0
$\begingroup$

Consider the function $d/dx$ from $P_n$ (the real vector space of degree $\leq n$ polynomials in one variable $x$) to $P_{n-1}$.

a) Prove that $d/dx$ is a linear transformation.

b) Write the associated matrix of the linear transformation with respect to the standard basis $(\{1,x,x^2,\dots,\})$ for $P_n$ and $P_{n-1}$.

c) What is the kernel of $d/dx$? What is range of $d/dx$?

I proved that $d/dx$ is a linear transformation by showing that it holds under additivity and homogeneity. However, I'm stuck on b). I tried to align the standard basis with its derivatives however I am confused as to what to do for the derivatives of $1$ and $x$.

I know that the kernel of $d/dx$ is all constants and the range is going to be $P_{n-1}$.

  • 0
    0 and$1$respectively2012-10-31

1 Answers 1

1

The action of a linear transformation is completely determined by their action on a basis of the space. If we apply $\frac{\rm d}{\rm dx}$ to the standard basis, then $\frac{\rm d}{\rm dx}x^k = kx^{k-1}$ for each $k\in\{0,\ 1,\ \cdots,\ n\}$. What space do these vectors span? What dimension is it? What dimension is the kernel then?

  • 0
    Sweet, thanks a lot!2012-10-31