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CHAPTER 2 2.4 Continuity Series Definition: Given a series n=1 a n = a 1 + a 2 + a 3 + …, let s n denote its nth partial sum: s n = n i=1 a i = a 1 + a 2 + … + a n. If the sequence {s n }is convergent and lim n s n = s exists as a real number, then the series a n is called convergent and we write a 1 + a 2 + a n + …= a i or i=1 a n = s. The number s is called the sum of the series. Otherwise, the series is called divergent.
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CHAPTER 2 2.4 Continuity The geometric series n=1 ar n-1 = a + ar + ar 2 + … Is convergent if | r | < 1 and its sum is n=1 ar n-1 = a / (1–r) | r | < 1. If | r | 1, the geometric series is divergent. Theorem: If the series n=1 a n is convergent, then lim n a n = 0. The Test for Divergence: If lim n a n does not exist or lim n a n 0, then the series n=1 a n is divergent.
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CHAPTER 2 2.4 Continuity Theorem: If a n and b n are convergent series, then so are the series ca n (where c is a constant), (a n + b n ), and n=1 (a n - b n ), and (i) n=1 ca n = c n=1 a n (ii) n=1 (a n + b n ) = n=1 a n + n=1 b n (iii) n=1 (a n - b n ) = n=1 a n - n=1 b n.
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