Power Series
Power SeriesRecall that the geometric series
is convergent exactly when -1<q<1.
when -1<x<1. We can rewrite the function 
as a series! Consider another example: What about rewriting
? Rewrite:
and use the formula for the geometric series with 
:
Since the geometric series formula "works" for |q|<1, this series expansion
will work exactly when 
, i.e., when |x|<1. (Check this carefully!!!)
, so we obtain:
If we plug in x=0 on both sides, using 
, we obtain C=0
and thus
Let's check graphically whether this might work:
The graph of
is black,
the sum of the first terms on the right are depicted in red.
(The "number of terms" in the picture actually
also counts the terms with zero coefficients!)
|
It seems to work as long as -1<x<1. With a little bit of work, the formula for the geometric series has led to a series expression for the inverse tangent function!
As it turns out, many familiar (and unfamiliar) functions can be written in the form
as an infinite sum of the product of certain numbers 
and powers of the variable x. Such expressions are called power series with center 0; the numbers are called its coefficients. Slightly more general, an expression of the form
is called a power series with center 
.
Using the summation symbol we can write this as
to write down a power series representation of the logarithmic function 
. What is the center of the power series?
For what values of x will this representation be valid? You might want to check your answer graphically, if you have a graphing calculator or access to a Math software program.
Click here to see the answers and to continue.