Sequences of Functions
Definition: An Infinite Sequence of Functions is a sequence of functions with a common domain. The Term of the sequence is the function .
We can define a finite sequence of functions analogously. A finite sequence of functions is denoted .
We can also denote an infinite sequence of functions as simply . We can also use curly brackets to denote a sequence of functions such as or simply .
For example, consider the following sequence of functions:
This is a sequence of diagonal straight lines that pass through the origin and whose slope is increasing. The following illustrates a few of the functions in this sequence:
For another example, consider the following sequence of functions:
This is a sequence of the simplest degree polynomials whose exponent is increasing. The following illustrates a few of the functions in this sequence:
Pointwise Convergence of Functions
Definition: Let be a sequence of functions with common domain . Then is said to be Pointwise Convergent to the the function written if for all and for all there exists a such that if then .
For example, consider the following sequence of functions defined on :
We claim that is pointwise convergent to . The following image shows the first six functions in the sequence given above. It should be intuitively clear that the sequence converges to the limit function .
To show this, fix and assume that and let be given. Then since we have that:
Choose such that which can be done by the Archimedean property. Then and so for we have that:
Therefore for . Now, for , notice that:
This sequence clearly converges to . So, we conclude that for all . Hence the sequence is pointwise convergent on all of .
Uniform Convergence of Sequences of Functions
Recall from the <a href="/pointwise-convergence-of-sequences-of-functions">Pointwise Convergence of Sequences of Functions</a> page that we say the sequence of functions with common domain is convergent to the limit function if for all and for all there exists an such that if then .
Another somewhat stronger type of convergence of a sequence of functions is called uniform convergence which we define below. Note the subtle but very important difference in the definition below!
Definition:
Let be a sequence of functions with common domain . Then is said to be Uniformly Convergent to the the limit function (written " uniformly on " or "") if for all there exists a such that if then for all .
Graphically, if the sequence of functions are all real-valued and uniformly converge to the limit function , then from the definition above, we see that for all there exists an such that for all we have that the following inequality holds for all :
The following graphic illustrates the concept of uniform convergence of a sequence of functions <math>(f_n(x))_{n=1}^{\infty}<math>:
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