JEOPARDY

1. JEOPARDY

2. ID, Please! Compared to What?! The 3 R's I'm All Shook Up... Back and Forth $200 $200 $200 $200 $200 $400 $400 $400 $400 $400 $600 $600 $600 $600 $600 $800 $800 $800 $800 $800 $1000 $1000 $1000 $1000 $1000

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4. ANSWER ID, Please! - $200

5. ANSWER ID, Please! - $400

6. ANSWER ID, Please! - $600

7. ANSWER ID, Please! - $800

8. ANSWER ID, Please! - $1000

9. ANSWER Compared to What?! - $200

10. ANSWER Compared to What?! - $400

11. ANSWER Compared to What?! - $600

12. ANSWER Compared to What?! - $800

13. ANSWER Compared to What?! - $1000

14. ANSWER The 3 R's - $200

15. ANSWER The 3 R's - $400

16. ANSWER The 3 R's - $600

17. ANSWER The 3 R's - $800

18. ANSWER The 3 R's - $1000

19. ANSWER I'm All Shook Up... - $200

20. ANSWER I'm All Shook Up... - $400

21. ANSWER I'm All Shook Up... - $600

22. ANSWER I'm All Shook Up... - $800

23. ANSWER I'm All Shook Up... - $1000

24. ANSWER Back and Forth - $200

25. ANSWER Back and Forth - $400

26. ANSWER Back and Forth - $600

27. ANSWER Back and Forth - $800

28. ANSWER Back and Forth - $1000

29. ****Answers****

30. DONE ID, Please! - $200 A Convergent Geometric Series since r < 1.

31. DONE ID, Please! - $400 A Divergent Geometric Series since r > 1.

32. DONE ID, Please! - $600 A Divergent p – Series since p < 1.

33. DONE ID, Please! - $800 The limit of this series equals 1, therefore by the nth term test, the series DIVERGES.

34. DONE ID, Please! - $1000 This series can be written as which is just a convergent p – series, since p > 1

35. DONE Compared to What?! - $200 Using the Direct Comparison Test to the convergent series Therefore, this series converges also.

36. DONE Compared to What?! - $400 Use the Limit Comparison Test with Since converges, so does the original series.

37. DONE Compared to What?! - $600 Using the Direct Comparison Test to the convergent p – series Therefore, this series converges also.

38. DONE Compared to What?! - $800 Using the Direct Comparison Test to the convergent geometric series Therefore, this series converges also.

39. DONE Compared to What?! - $1000 Using the Direct Comparison Test, we first try So try using the Direct Comparison Test with something in between … say BUT this gives us a series that is less than a divergent series … Not helpful Next, try using the Direct Comparison Test with Therefore, since the series is less than a convergent series, the original series is CONVERGENT ALSO! BUT this gives us a series that is more than a convergent series … Not helpful

40. DONE The 3 R's - $200 By the Root Test, this series converges.

41. DONE The 3 R's - $400 By the Ratio Test, this series diverges.

42. DONE The 3 R's - $600 By the Integral Test, this series converges because the integral converges. NOTE: you could have used the geometric series test since

43. DONE The 3 R's - $800 By the Integral Test, this series diverges because the integral diverges.

44. DONE The 3 R's - $1000 By the Ratio Test, this series converges.

45. DONE I'm All Shook Up... - $200 By the Telescoping Series Test, this series converges.

46. DONE I'm All Shook Up... - $400 A convergent p – series, since p > 1

47. DONE I'm All Shook Up... - $600 Using the Limit Comparison Test to the divergent p – series Therefore, since the p – series diverges, so does the original series.

48. DONE I'm All Shook Up... - $800 By the Ratio Test, this series diverges.

49. DONE I'm All Shook Up... - $1000 By the nth term Test, since this series diverges

50. DONE Back and Forth - $200 Alternating Series Test (condition 1): (condition 2): Since both conditions of the alternating series are met, the series converges.