Uniform Convergence of Series of Functions

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Pointwise Convergent and Uniformly Convergent Series of Functions

Recall that a sequence of functions with common domain is said to be pointwise convergent if for all and for all there exists an such that if then:

Also recall that a sequence of functions with common domain is said to be uniformly convergent if for all there exists an such that if then for all we have that:

We will now extend the concept of pointwise convergence and uniform convergence to series of functions.

Definition: Let be a sequence of functions with common domain . The corresponding series is said to be Pointwise Convergent to the sum function if the corresponding sequence of partial sums (where ) is pointwise convergent to .

For example, consider the following sequence of functions defined on the interval :

We now that this series converges pointwise for all since the result series is simply a geometric series to the sum function .

Definition: Let be a sequence of functions with common domain . The corresponding series is said to be Uniformly Convergent to the sum function if the corresponding sequence of partial sums is uniformly convergent to .

The geometric series given above actually converges uniformly on , though, showing this with the current definition of uniform convergence of series of functions is laborious. We will soon develop methods to determine whether a series of functions converges uniformly or not without having to brute-force apply the definition for uniform convergence for the sequence of partial sums.


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