1st) given series is convergent by ratio test.
2nd) Given series is divergent by ratio test.
2) Given series is convergent using partial sum.
3) Given series is convergent using partial sum.
1. Consider each series. If the series converges, find the value it converges to. If the series d...
Use the pull down menu to state whether the series converges or diverges and by which convergence test. 3m 4 (1y Vn+3 8" n! g0- 32 443 (-1'n Σ 4n+4 00 Σ (+: 4 4 n7 n15 W Converges-Integral/Comparison Test Converges-Ratio Test Converges-Alternating Series Test Diverges-Integral/Comparison Test Diverges-Ratio Test Diverges-Alternating Series Test Use the pull down menu to state whether the series converges or diverges and by which convergence test. 3m 4 (1y Vn+3 8" n! g0- 32 443 (-1'n...
Find a formula for the nth partial sum of the series and use it to determine if the series converges or diverges. If the series converges, find its sum. 10 Σ 10 n+1 n n=1 Sn If the series converges, what is its sum? Select the correct choice below and, if necessary, fill in the answer box to complete your choice. O A. The series sum is (Type an integer or a fraction.) B. The series diverges.
(1 point) Determine if the following series converges or diverges. Note: If it converges, consider whether it is geometric or telescoping and enter its sum. If it diverges, enter divergent. 00 Σ 19 n(n + 2)
N/w Use the nth-Term Test for divergence to show that the series is divergent, or state that the test is inconclusive. 00 n+2 7) n 1 1 A) converges, B) diverges C) converges, 2 D) inconclusive Determine if the series converges or diverges. If the series converges, find its sum. 6 81 8) 4n-1)(4n+3) n-1 A) converges; 1 B) converges C) converges; : 1 D) diverges 6 9) n(n+ 1)(n+2) D) converges; n-1 C) diverges 2 3 B) converges; 4...
(b) Determine whether the series Σ7n+= converges or diverges. n=1 Σ(-1)n+1n2+1 (c) Determine whether the series converges absolutely, con- n= 1 verges conditionally or diverges (d) Find the interval of convergence for the power series Σ(-1)k (2r)* k-2 (b) Determine whether the series Σ7n+= converges or diverges. n=1 Σ(-1)n+1n2+1 (c) Determine whether the series converges absolutely, con- n= 1 verges conditionally or diverges (d) Find the interval of convergence for the power series Σ(-1)k (2r)* k-2
Use the root test to determine if the following series converges. 12 Σ 4n6 – 6 5n3 – n - - 7 n=1 Using the root test find lim 1200 VI(2) 1 ano 12 And, what can we conclude about the series 4n - 6 5n3 – n - 7 Σ Inconclusive Diverges Converges
E) The series Σ-(-1)" 2- n a. converges conditionally. b. diverges by the nth term test. c. converges absolutely, d. converges by limit comparison test. F) The sum of the series 2-3)" is equal to e. None of the above E) The series Σ-(-1)" 2- n a. converges conditionally. b. diverges by the nth term test. c. converges absolutely, d. converges by limit comparison test. F) The sum of the series 2-3)" is equal to e. None of the above
Use the alternating series test to determine whether the series converges or diverges. Do 1 problem. 2n 1) Σ-1)". 2) Σ-1)" 3) Σ-1)**1. 4) 4η + 3 8 + 1η 4n' +2 cos(ηπ) 1 5) Στο Hel
Determine if the series converges or diverges; if the series converges, find its sum. 5 Ž(-1)-1 21 n=1 Converges; 5/3 Converges: 5 Converges; 1 Diverges
(1 point) For each of the series below select the letter from a to c that best applies and the letter from d to j that best applies. A possible correct answer is af, for example. A. The series is absolutely convergent. B. The series converges, but not absolutely C. The series diverges D. The alternating series test shows the series converges. E. The series is a p-series F. The series is a geometric series. G. We can decide whether...