Use the sum of the first 10 terms to approximate the sum S of the series....
Use the sum of the first 10 terms to approximate the sum S of the series. (Round your answers to five decimal places.) ∞ sin2 6n n2 n = 1 S ≈ Estimate the error. (Use the Remainder Estimate for the Integral Test.) error ≤
Use the sum of the first 10 terms to approximate the sum S of the series. (Round your answers to five decimal places.) 5 LV n4 + 3 n = 1 S Estimate the error. (Use the Remainder Estimate for the Integral Test.) errors
Use the sum of the first 10 terms to approximate the sum s of the series. (Round your answers to five decimal places.) sin?(20n) n = 1 Sa Estimate the error. (Use the remainder Estimate for the Integral Test.) error s 0.10000 x Need Help? Read It Talk to a Tutor
Use the sum of the first 10 terms to approximate the sum of the series. (Round your answers to five decimal places.) Σ sin2(2n) n=1 S2 Estimate the error. (Use the remainder Estimate for the Integral Test.) errors Need Help? Talk to a Tutor Read it
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...
the following series. a) Use the sum of the first 10 terms to estimate the sum of the given series. (Round the answer to six de 10 (b) Improve this estimate using the following inequalities with n 10. (Round your answers to six decimal (c) Using the Remainder Estimate for the Integral Test, find a value of n that will ensure that the error in th n>22 O n 13 On>0 O n> -22 d Help? the following series. a)...
10. (8 poinis) Approximate the sum of the series Σ-, using the 20th partial sum, s20 Round to 4 decimal places. (Use your calculator) a. 2 b. Calculate an upper bound for the error/remainder associated with this approximation (s20) using the formula: R,,「f(x) (a). 20こ 10. (8 poinis) Approximate the sum of the series Σ-, using the 20th partial sum, s20 Round to 4 decimal places. (Use your calculator) a. 2 b. Calculate an upper bound for the error/remainder associated...
Let Pbé à pósitive, continuous, and decreasing function for x 2 1, such that an-n). If the series an n 1 converges to S, then the remainder RN -S-Sw is bounded by Use the result above to approximate the sum of the convergent series using the indicated number of terms. (Round your answers to four decimal place Σ ,T, ten terms n2 +1' Include an estimate of the maximum error for your approximation. (Give your answer to four decimal places.)...
Use the alternating series remainder to approximate the sum of the series using the first six terms. 8+] (1)+10 31
1. 2. (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...