1. Direct and Limit Comparison Test
Section 9.4
Calculus BC AP/Dual, Revised ©2017
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§9.4: Direct and Limit Comparison Tests

2. Summary of Tests for Series
Looking at the first few terms of the sequence of partial sums may not help us much so we will learn the following ten tests to determine convergence or divergence:
P 𝒑-series: Is the series in the form 𝟏 𝒏 𝑷 ?
A Alternating series: Does the series alternate? If it does, are the terms getting smaller, and is the 𝒏th term 0?
R Ratio Test: Does the series contain things that grow very large as 𝒏 increases (exponentials or factorials)?
R Root Test: Does the series contain a radical?
T Telescoping series: Will all but a couple of the terms in the series cancel out?
I Integral Test: Can you easily integrate the expression that define the series?
N 𝒏th Term divergence Test: Is the nth term something other than zero?
G Geometric series: Is the series of the form, 𝒏=𝟎 ∞ 𝒂 𝒓 𝒏
C Comparison Tests: Is the series almost another kind of series (e.g. 𝒑-series or geometric)? Which would be better to use: Direct or Limit Comparison Test?
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§9.4: Direct and Limit Comparison Tests

3. Direct Comparison Test
If 𝒂 𝒏 ≥𝟎 and 𝒃 𝒏 ≥𝟎 for all 𝑛 and 𝒂 𝒏 ≤ 𝒃 𝒏 then:
If 𝒏=𝟏 ∞ 𝒃 𝒏 CONVERGES and 𝟎 ≤𝒂 𝒏 ≤ 𝒃 𝒏 , then 𝒏=𝟏 ∞ 𝒂 𝒏 CONVERGES as well.
If 𝒏=𝟏 ∞ 𝒂 𝒏 DIVERGES and 𝟎 ≤𝒂 𝒏 ≤ 𝒃 𝒏 , then 𝒏=𝟏 ∞ 𝒃 𝒏 DIVERGES as well.
In other words, smaller series is convergent if the larger series is convergent.
In order to apply this test, both series need to start at the same 𝒌.
The Direct Comparison Test works hand in hand with other tests.
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§9.4: Direct and Limit Comparison Tests

4. Direct Comparison Test
If 𝒏=𝟏 ∞ 𝒃 𝒏 (given) CONVERGES and 𝟎≤ 𝒂 𝒏 ≤ 𝒃 𝒏 , then 𝒏=𝟏 ∞ 𝒂 𝒏 (parent function) CONVERGES too.
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§9.4: Direct and Limit Comparison Tests

5. Direct Comparison Test
If 𝒏=𝟏 ∞ 𝒂 𝒏 (parent function) DIVERGES and 𝟎≤ 𝒂 𝒏 ≤ 𝒃 𝒏 , then 𝒏=𝟏 ∞ 𝒃 𝒏 (given) DIVERGES too.
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§9.4: Direct and Limit Comparison Tests

6. Steps for Direct Comparison Test
Compare the given using the 𝒑-Series or GST (Test goes hand in hand)
Start directly comparing by writing an inequality from the given to the end
When comparing, drop off the constant and use the inequality
Include the inequality when stating the conclusion of the test.
Pick a number to correspond to 𝒏 to prove the test
Identify whether the series converges or diverges
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§9.4: Direct and Limit Comparison Tests

7. §9.4: Direct and Limit Comparison Tests
Example 1
Use the Direct Comparison Test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝟏 𝒏 𝟑 +𝟏 .
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§9.4: Direct and Limit Comparison Tests

8. §9.4: Direct and Limit Comparison Tests
Example 1
Use the Direct Comparison Test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝟏 𝒏 𝟑 +𝟏 .
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§9.4: Direct and Limit Comparison Tests

9. §9.4: Direct and Limit Comparison Tests
Example 2
Use the Direct Comparison Test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝟏 𝟑 𝒏 +𝟐 .
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§9.4: Direct and Limit Comparison Tests

10. §9.4: Direct and Limit Comparison Tests
Example 2
Use the Direct Comparison Test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝟏 𝟑 𝒏 +𝟐 .
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§9.4: Direct and Limit Comparison Tests

11. §9.4: Direct and Limit Comparison Tests
Your Turn
Use the Direct Comparison Test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝟑 𝒏 𝟕 𝒏 +𝟏 .
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§9.4: Direct and Limit Comparison Tests

12. §9.4: Direct and Limit Comparison Tests
Your Turn
Use the Direct Comparison Test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝟑 𝒏 𝟕 𝒏 +𝟏 .
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§9.4: Direct and Limit Comparison Tests

13. §9.4: Direct and Limit Comparison Tests
Example 3
Use the Direct Comparison Test to prove whether the series converges or diverges, 𝒏=𝟒 ∞ 𝟏 𝒏 −𝟏 .
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§9.4: Direct and Limit Comparison Tests

14. §9.4: Direct and Limit Comparison Tests
Example 3
Use the Direct Comparison Test to prove whether the series converges or diverges, 𝒏=𝟒 ∞ 𝟏 𝒏 −𝟏 .
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§9.4: Direct and Limit Comparison Tests

15. §9.4: Direct and Limit Comparison Tests
Your Turn
Use the Direct Comparison Test to prove whether the series converges or diverges, 𝒏=𝟐 ∞ 𝒏 𝒏 𝟐 −𝟏 .
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§9.4: Direct and Limit Comparison Tests

16. §9.4: Direct and Limit Comparison Tests
Your Turn
Use the Direct Comparison Test to prove whether the series converges or diverges, 𝒏=𝟐 ∞ 𝒏 𝒏 𝟐 −𝟏 .
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§9.4: Direct and Limit Comparison Tests

17. §9.4: Direct and Limit Comparison Tests
Review Example
Prove the series converges for 𝒏=𝟏 ∞ 𝒏 𝟒 +𝟏𝟎 𝟒𝒏 𝟓 − 𝒏 𝟑 +𝟕 .
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§9.4: Direct and Limit Comparison Tests

18. §9.4: Direct and Limit Comparison Tests
Review Example
Prove the series converges for 𝒏=𝟏 ∞ 𝒏 𝟒 +𝟏𝟎 𝟒𝒏 𝟓 − 𝒏 𝟑 +𝟕 .
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§9.4: Direct and Limit Comparison Tests

19. §9.4: Direct and Limit Comparison Tests
If 𝒂 𝒏 >𝟎 and 𝒃 𝒏 >𝟎 AND 𝐥𝐢𝐦 𝒏→∞ 𝒂 𝒏 𝒃 𝒏 =𝑳 or 𝐥𝐢𝐦 𝒏→∞ 𝒃 𝒏 𝒂 𝒏 =𝑳 where 𝑳 is both finite and positive:
Then, 𝒏=𝟏 ∞ 𝒂 𝒏 and 𝒏=𝟏 ∞ 𝒃 𝒏 both CONVERGES or both DIVERGES
Sometimes, the inequalities do not work or are difficult to show but the answer is given, this test will help prove it
The reasoning behind this test is to CONFIRM whether the series converges or diverges (we don’t know what they are) as opposed to DCT, where we know what converges or diverges
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§9.4: Direct and Limit Comparison Tests

20. Steps for Limit Comparison Test
Compare the given using the 𝒑-Series or GST
Compare the original problem and divide it with the new answer
When comparing, drop off the constant and use the inequality
Drop all constants with the series equation
Solve the limit using B/S, S/B, Same LC, or L’Hopital rules
Determine whether the answer prove whether it is FINITE and POSITIVE
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§9.4: Direct and Limit Comparison Tests

21. §9.4: Direct and Limit Comparison Tests
Example 4
Use the Limit Comparison test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝒏 𝟒 +𝟏𝟎 𝟒𝒏 𝟓 − 𝒏 𝟑 +𝟕 .
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§9.4: Direct and Limit Comparison Tests

22. §9.4: Direct and Limit Comparison Tests
Example 4
Use the Limit Comparison test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝒏 𝟒 +𝟏𝟎 𝟒𝒏 𝟓 − 𝒏 𝟑 +𝟕 .
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§9.4: Direct and Limit Comparison Tests

23. Example 4
Use the Limit Comparison test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝒏 𝟒 +𝟏𝟎 𝟒𝒏 𝟓 − 𝒏 𝟑 +𝟕 .
The answer is positive and finite.
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§9.4: Direct and Limit Comparison Tests

24. §9.4: Direct and Limit Comparison Tests
Example 5
Use the Limit Comparison test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝒏 𝒏 𝟐 +𝟏 .
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§9.4: Direct and Limit Comparison Tests

25. §9.4: Direct and Limit Comparison Tests
Example 5
Use the Limit Comparison test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝒏 𝒏 𝟐 +𝟏 .
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§9.4: Direct and Limit Comparison Tests

26. Example 5
Use the Limit Comparison test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝒏 𝒏 𝟐 +𝟏 .
The answer is positive and finite.
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§9.4: Direct and Limit Comparison Tests

27. §9.4: Direct and Limit Comparison Tests
Example 6
Use the Limit Comparison test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝟐 𝒏 𝒏 𝒏 𝟐 −𝟑 .
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§9.4: Direct and Limit Comparison Tests

28. §9.4: Direct and Limit Comparison Tests
Example 6
Use the Limit Comparison test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝟐 𝒏 𝒏 𝒏 𝟐 −𝟑 .
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§9.4: Direct and Limit Comparison Tests

29. Example 6
Use the Limit Comparison test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝟐 𝒏 𝒏 𝒏 𝟐 −𝟑 .
The answer is positive and finite.
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§9.4: Direct and Limit Comparison Tests

30. §9.4: Direct and Limit Comparison Tests
Your Turn
Use the Limit Comparison test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝟓𝒏−𝟑 𝒏 𝟑 −𝟐𝒏+𝟓 .
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§9.4: Direct and Limit Comparison Tests

31. §9.4: Direct and Limit Comparison Tests
Your Turn
Use the Limit Comparison test to prove whether the series converges or diverges, 𝒏=𝟏 ∞ 𝟓𝒏−𝟑 𝒏 𝟑 −𝟐𝒏+𝟓 .
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§9.4: Direct and Limit Comparison Tests

32. AP Multiple Choice Practice Question 1 (non-calculator)
If 𝒏=𝟏 ∞ 𝒂 𝒏 diverges and 𝟎≤ 𝒂 𝒏 ≤ 𝒃 𝒏 for all 𝒏, which of the following statements must be true? (A) 𝒏=𝟏 ∞ −𝟏 𝒏 𝒂 𝒏 converges. (B) 𝒏=𝟏 ∞ −𝟏 𝒏 𝒃 𝒏 diverges. (C) 𝒏=𝟏 ∞ 𝒃 𝒏 converges. (D) 𝒏=𝟏 ∞ 𝒃 𝒏 diverges.
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§9.4: Direct and Limit Comparison Tests

33. AP Multiple Choice Practice Question 1 (non-calculator)
If 𝒏=𝟏 ∞ 𝒂 𝒏 diverges and 𝟎≤ 𝒂 𝒏 ≤ 𝒃 𝒏 , for all 𝒏, which of the following statements must be true?
Vocabulary
Connections and Process
Answer
If 𝒏=𝟏 ∞ 𝒂 𝒏 (parent function) DIVERGES and 𝟎≤ 𝒂 𝒏 ≤ 𝒃 𝒏 , then 𝒏=𝟏 ∞ 𝒃 𝒏 (given) DIVERGES too.
11/24/2018 5:15 PM
§9.4: Direct and Limit Comparison Tests

34. AP Multiple Choice Practice Question 2 (non-calculator)
What series should we use in the limit comparison test in order to determine whether 𝑺= 𝒏=𝟏 ∞ 𝟐 𝒏 𝟑 𝒏 −𝟏 converges? (A) 𝒏=𝟏 ∞ 𝟑 𝒏 (B) 𝒏=𝟏 ∞ 𝟏 𝟑 𝒏 −𝟏 (C) 𝒏=𝟏 ∞ 𝟐 𝟑 𝒏 (D) 𝒏=𝟏 ∞ 𝟐 𝒏
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§9.4: Direct and Limit Comparison Tests

35. AP Multiple Choice Practice Question 2 (non-calculator)
What series should we use in the limit comparison test in order to determine whether 𝑺= 𝒏=𝟏 ∞ 𝟐 𝒏 𝟑 𝒏 −𝟏 converges?
Vocabulary
Connections and Process
Answer
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§9.4: Direct and Limit Comparison Tests

36. §9.4: Direct and Limit Comparison Tests
Assignment
Page odd, all, odd
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§9.4: Direct and Limit Comparison Tests