3. Let an and bn be two sequences of positive numbers such that Σb diverges. (a) If lim an+1 2004-2 (b) If lim an (c) If lim an 818 = = = 1 1 2' 2' 1 2' does an converge or diverge and what test justifies your conclusion? does a converge or diverge and what test justifies your conclusion? does an converge or diverge and what test justifies your conclusion? (d) If lim van = 1½ does a converge or diverge and what test justifies your conclusion? n1x

Q3 full

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utions to each of these problems on a seperate sheet of paper. 1. Consider the series n=1 In(n) n2 (a) Try using the Limit Comparison Test with b (b) Try using the Limit Comparison Test with b 1 = 1221 1 Is the test conclusive? Explain your answer. Ba =. Is the test conclusive? Explain your answer. (c) Try using the Limit Comparison Test with b n 1 = n3/2- Is the test conclusive? Explain your answer. 2. For each of the following series determine if they converge or diverge. You may use any test we have covered so far. (a) 3+ cos(n!) 玩 n=1 (b)²sin*(3/2) n=1 (c) (-1)"; n=1 (3n)! (n!)362n+1 (d) sin (+) (e) (f) n=2 n=3 n=0 √n²-4 m³ +In(n) 2.5...(3n+2) 2nn! (The expression in the numerator is called a running product. It is basically a factorial that skips numbers rather than multiplying every number together. This one starts at 2 and skips by 3 each time. So for instance, if n was 4 it would be 2.5.8.11.14.) 3. Let an and bn be two sequences of positive numbers such that bn diverges. (a) If lim An+1 (b) If lim An (c) If lim an n7x (d) If lim va 8012 = = 1 1 2' ེ 2' = 1 1 2' does an converge or diverge and what test justifies your conclusion? does an converge or diverge and what test justifies your conclusion? does an converge or diverge and what test justifies your conclusion? 2' does an converge or diverge and what test justifies your conclusion?