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1 min read•june 18, 2024
Welcome to AP Calc 10.7! In this lesson, you’ll how to test for convergence when dealing with an alternating series.
The alternating series test for convergence states that for an alternating series , if
then the series converges. Otherwise, it diverges.
To illustrate this theorem, let’s look at a famous example—the alternating harmonic sequence:
Let’s look at our first criteria: the limit of must be equal to zero. To figure this out, we first must figure out what is! To do this, all we have to do is factor out the alternating part of the sequence, . Then, we get
Now, let’s take the limit.
Well, that’s our first criteria satisfied! Now we need to know whether decreases. To show this, we must show that .
Try plugging in a random number for to see that this is true!
Therefore, both of our conditions for convergence are met, and our series converges!
Now it’s your turn to apply what you’ve learned!
For each of the following series, state whether they converge or diverge.
First, identify .
Now, take the limit.
Since our first condition isn’t met, we don’t need to check the second condition. This series is divergent.
This one is a little tricky—it requires you to recognize another type of alternating series, . If you plug some examples into your calculator, you’ll see that . Therefore, we can treat this equation just like the harmonic series in our first example. We showed that the harmonic series met the conditions for convergence, so this one does too! This series is convergent.
First, we find . Then, we take the limit:
Like our first problem, since the first condition isn’t met, we can say that this series is divergent without checking the other condition.
Great work! With this test mastered, you’re well equipped to take on all sorts of convergence problems. Make sure you recognize both types of alternating series so that you know when to apply this test! 🧠
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