The Integral Test enables us to bound the error approximation of the series 1 (Inn)4 n=3...
We saw in class a result that provides an upper bound for the error approximation of an alternating series by a given partial sum. Applying this result to the alternating series (1)n S = n=3 n (Inn)6 and its partial sum 5 (1)2 S5= compute the corres pond ing upper bound for the error s-s Give your answer to five decimals accuracy Number MIM8
We saw in class a result that provides an upper bound for the error approximation of...
To test the series e 2n for convergence, you can use the Integral Test. (This is also a geometric series, so we could n=1 also investigate convergence using other methods.) Find the value of e-24 dx = Preview Ji What does this value tell you about the convergence of the series e-2n? the series definitely diverges the series might converge or diverge: we need more information the series definitely converges Compute the value of the following improper integral, if it...
14 3. . a. Using Simpson's Rule (n-6). approximatevx +1 de b. Determine the upper bound on the error in part a. Hint56r - 80) dx 16(r 1) If the absolute error in the approximation of the integral in #(4 a) is to be at most 0.05. determine the appropriate value of n (#of subintervals) c.
14 3. . a. Using Simpson's Rule (n-6). approximatevx +1 de b. Determine the upper bound on the error in part a. Hint56r -...
Question 11 0/5 points n+1 satisfies all requirements of the Alternating Series Test. (You don't It 2n=1 have to check that - trust me on this one.) (2n+1) (a) Use a calculator to evaluate the partial sum S3 of this series. Give the answer rounded to four decimal places. (b) Estimate the error of using S3 as an approximation to the sum of the series, i.e. estimate the remainder R3. Recall that the remainder estimate of the Alternating Series Test...
The series converges by the Alternating Series Test. Use Theorem
9.9: Error Bounds for Alternating Series to find how many terms
give a partial sum, Sn, within 0.01 of the sum, S, of
the series.
-1 I n Theorem 9.9: Error Bounds for Alternating Series Let n = Σ Suppose that 0 < an+1 < an for all n and limn-too an-0. Then (- 1)i-lai be the nth partial sum of an alternating series and let S = lim Sn....
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(1 point) Consider the following convergent series: Suppose that you want to approximate the value of this series by computing a partial sum, then bounding the error using the integral remainder estimate. In order to bound the value of the series between two numbers which are no more than 10 apart, what is the fewest number of terms of the series you would need? Fewest number of terms is 585 (1 point) Consider the following series: le(n Use...
Problem 3. Consider the series: 1 n [ln (n)]4 n=2 a) (6 pts) Use the integral test to show that the above series is convergent. b) (4 pts) How many terms do we need to add to approximate the sum within Error < 0.0004.
Prev Up Next (1 pt) Use the Integral Test to determine whether the infinite series is convergent. 7 Inn n2 n=2 Fill in the corresponding integrand and the value of the improper integral. Enter inf for ol, -inf for -00, and DNE if the limit does not exist. Compare with a dr = By the Integral Test, 7 Inn the infinite series Σ n? -2 A. converges B. diverges Note: You can earn partial credit on this problem. Preview Answers...
Sec6.5: Problem 6 Previous Problem List Next (2 points) Book Problem 17 4, to approximate the integral 7e dx (a) Use the Midpoint Rule, with n MA (Round your answers to six decimal places.) (b) Compute the value of the definite integral in part (a) using your calculator, such as MATH 9 on the TI83/84 or 2ND 7 on the TI-89. 7edx (c) The error involved in the approximation of part (a) is Ем — Те ах Ма (d) The...
use the sum of the first ten terms to approximate the sum of the series -Estimate the error by takingthe average of the upper (Hint: Use trigonometric substitution, Round your answers to three decimal places Theorem 16. Remainder Estimate for the Integral Test Let f(x) be a positive-valued continuous decreasing function on the interval [I,0o) such that f(n): an for every natural number n. lf the series Σ an converges, then f(x)dx s R f(x)dx
use the sum of the...