Proving Continuity of Power Series Function

In summary, The power series function f(x) = sum(a_n*x^n) is continuous for its radius of convergence, according to the definition of continuity. This means that for any |a| < R, given e > 0, there exists d > 0 such that |x-a| < d implies |f(x) - f(a)| < e. To show this, you can use the fact that |f(x) - f(a)| <= |f(x-a)| and factor out (x-a) from each power of f(x) - f(a). However, it may be difficult to show the rest of the series converges without using the differentiability of power series.
  • #1
ricardianequiva
14
0

Homework Statement


Show, from the definition of continuity, that the power series function f(x)=sum(a_n*x^n) is continuous for its radius of convergence.

Homework Equations


Definition of continuity

The Attempt at a Solution


Must show that for any |a| < R, given e>0 there exists d>0 such that |x-a|<d => |f(x) - f(a)|.
|f(x)-f(a)| < e.
|f(x) - f(a)| <= |f(x-a)|
Then I get stuck here.
Any help would be appreciated
 
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  • #2
|f(x)-f(a)| is not less than |f(x-a)|. It's not like f is linear or something. |f(x)-f(a)|=|(f(x)-f(a))/(x-a)|*|x-a|. Now to get a d, you need a bound on |(f(x)-f(a))/(x-a)| near x=a. Hint: doesn't that look like a difference quotient?
 
  • #3
Hmm we haven't done differentiation yet so I'm not sure how helpful the |(f(x)-f(a))/(x-a)| will be.
 
  • #4
You are doing power series without having done differentiation!? That's an interesting pedagogical approach. You can still factor (x-a) algebraically from each power of f(x)-f(a), but I'm not sure how you show the rest of it converges without using the differentiability of power series.
 
  • #5
yeah...
Thanks for the help though
 

Related to Proving Continuity of Power Series Function

1. What is the definition of continuity of an infinite series?

The continuity of an infinite series refers to the property that the sum of the terms in the series approaches a finite limit as the number of terms in the series approaches infinity.

2. How is continuity of an infinite series related to convergence?

Continuity of an infinite series is closely related to convergence, as a series can only be considered continuous if it converges to a finite limit.

3. Can an infinite series be continuous if it diverges?

No, an infinite series can only be considered continuous if it converges. If a series diverges, it does not approach a finite limit and therefore cannot be considered continuous.

4. How is the continuity of an infinite series tested?

The continuity of an infinite series can be tested using various convergence tests, such as the ratio test or the integral test. These tests help determine if a series converges to a finite limit and therefore can be considered continuous.

5. Why is the continuity of an infinite series important in mathematics?

The continuity of an infinite series is important in mathematics as it allows for the evaluation of complex expressions and the approximation of irrational numbers. It also plays a crucial role in calculus and other areas of mathematics.

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