1. Home
  2. Calculus
  3. Sequence and Series

Functions expressed as power series - Sequence and Series

Functions expressed as power series

In this section, we will learn how to convert functions into power series. Most of the functions we will be dealing with will be converted into a geometric series. After converting them into a power series, we will find the interval of convergence. Keep in mind that we do not have to check the endpoints of the inequality because we automatically know they will be divergent. Afterwards, we will look at an irregular function and express it as a power series. Integrals will be involved here. We will also take the derivative of a function and express that as a power series.

Lessons

Notes:
Note *A formula that may be of use when expressing functions into power series:

11r=n=0rn\frac{1}{1-r}=\sum_{n=0}^{\infty}r^n knowing that 1-1 < rr < 11

When finding the interval of convergence, there is no need to check the endpoints. This is because the sum of the geometric series strictly converges only when 1-1 < rr < 11, and not at r=1r=1.

If the function f(x)f(x) has a radius of convergence of RR, then the derivative and the anti-derivative of f(x)f(x) also has a radius of convergence of RR.
Teacher pug

Functions expressed as power series

Don't just watch, practice makes perfect.

We have over 350 practice questions in Calculus for you to master.