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…an overview of sections 9.3 – 9.4. Some Fundamentals… For a series to converge the elements of the series MUST converge to zero! but This is a necessary.

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Presentation on theme: "…an overview of sections 9.3 – 9.4. Some Fundamentals… For a series to converge the elements of the series MUST converge to zero! but This is a necessary."— Presentation transcript:

1 …an overview of sections 9.3 – 9.4

2 Some Fundamentals… For a series to converge the elements of the series MUST converge to zero! but This is a necessary but not sufficient condition! Example: does the following (harmonic series) converge?

3 A few major methods… Integral Test: – p-test Comparison Test Alternating Series Test Ratio Test Nth Root Test

4 Integral Test Applies to monotonic, positive, decreasing functions Use the connection between summation and integration Express generating function for series as an integrand: Example: does converge? Compare this to Series converges if the integral does! pg 510 # 5

5 Comparison Test Sorta “common sense”: – “if series A converges and all of series B terms are less than or equal to series A terms then series B also converges” – The “catch” (there is always a catch!): the terms must be non-negative. – Example: Test convergence (or divergence) of: A) B) Pg 519 #12

6 Alternating Series Test If – and the Series converges Pg 519 #26

7 Ratio and Root Tests Consider the series let if: –  < 1 series converges –  > 1 series diverges –  = 1 ??????????? Example: Pg 519 #15

8 Ratio and Root Tests Consider the series let if: –  < 1 series converges –  > 1 series diverges –  = 1 ??????????? Example:

9 Summary – Series Check List Always try comparison test first! Yes! - done No? Expression has factorials – ratio test Positive, monotonic decreasing? – Integral test Expression has powers – root test Alternating terms – alternating series test some samples…

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