4. The series105. The series(a) is Absolutely Convergent(b) is Conditionally Convergent, but not Absolutely Convegent(c) is Divergent(d) None of these are correctn=15n²3n²+1(n + 1)²n!n=8(a) is Absolutely Convergent(b) is Conditionally Convergent, but not Absolutely Convegent(c) is Divergent(d) None of these are correct6. The series (1)n ln(n)***(a) is Absolutely Convergent(b) is Conditionally Convergent, but not Absolutely Convegent(c) is Divergent(d) None of these are correct 1. If the seriesn=1(a) Must be Convergent(b) Must be Divergent(c) Can be either Convergent or Divergent, depending on an3. The seriesan is convergent and an> 0 for all n, then we also know that2. If the series an is convergent and an > 0 for all n, then we also know thatn=1(a) Must be Convergent(b) Must be Divergent(c) Can be either Convergent or Divergent, depending on ann=2n² +13n3 — √n...11(a) is Absolutely Convergent(b) is Conditionally Convergent, but not Absolutely Convegent(c) is Divergent(d) None of these are correctan71n=1nan

Answered: Image /qna-images/answer/16022633-69f0-4f4b-a572-fe0b87a0eb98.jpg

Answered: 4. The series 10 5n² 3n²+1 (a) is…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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We will prove the Cauchy-Schwarz inequality for infinite series. Let (a,) and (bm) be two sequences such that a and E both converge. (a) Give an example a sequence (a„) where Ea, diverges but E¢ converges. (b) Use induction to show that for any N > 0 N This is the Cauchy-Schwarz inequality for finite sums (or the dot products). (c) Show the (E) (2+) (E») Σ This is the Cauchy-Schwarz inequality for infinite sums. (d) Why does part (c) imply that ab, converges?
12) There is one special “family” of series for which, if the series converges, we can determine the exact value of the series. This is the family where it really matters that we know the bounds of the summation. What family is this?
Solve 10 a determine whether the following p series are convergent or divergent
1. If the series an is convergent and an > 0 for all n, then we also know that n=1 (a) Must be Convergent (b) Must be Divergent (c) Can be either Convergent or Divergent, depending on an M8 n=1 an n E
∞ 1. Let an be a POSITIVE infinite series (i.e. an > 0 for all n ≥ 1). Let ƒ be a continuous function n=1 with domain R. Is each of these statements true or false? If it is true, prove it. If it is false, prove it by providing a counterexample and justify that is satisfies the required conditions.

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