0 Question 1 V Textbook (62/) Videos [+] 00 To test the series 2 37\" for convergence, you can use the Integral Test. (This is also a geometric series, 71:1 so we could also investigate convergence using other methods.) 00 1 00 What does this value tell you about the convergence of the series 2 e 11:1 7n? 0 the series definitely diverges O the series definitely converges O the series might converge or diverge: we need more information 0 Question 4 v Textbook (9'? Videos [+] Compute the value of the improper integral. (If the integral diverges to 00, type 00; if it diverges to 00, type -00; if it diverges for some other reason, type DNE.) f; 1332 dm=D 00 9 Use the value of the improper integral to determine whether or not the series E 1 + 2 n 1171 diverges. Enter C if the series is convergent, D if the series is divergent, and ? if the Integral Test does not apply: converges Ol' . Question 6 Textbook @ Videos _ [+] To test the series 1 13 for convergence, you can use the P-test. The P-test is using the convergence or k=1 divergence properties of a p-series to figure out whether a p-series is convergent or divergent. According to the P-test: 8 O diverges K= 1 1 O converges K= O not a p-seris, so the P-test does not apply to 1 iM8 K3 Now compute $3, the partial sum consisting of the first 3 terms of IM 8 K3 S3