V12(-1)" 3" (2n + 1) V12(-1)" 3" (2n + 1) 1. Consider the series ) Note: this was changed from n=0 n=1 Use any test for convergence/divergence to show that the series converges. V12(-1)" 3" (2n + 1) (b) It is possible to show that the sum of the series is T, in other words, the series ----- -- - n=0 converges to the number 7. (You do NOT need to prove this, but it can be done somewhat easily using a Taylor series expansion of arctan x.) Suppose you want to use a partial sum of this series to estimate the value of T to an accuracy of within 0.0001. Would using the first 8 terms of the series be enough to ensure you get an accuracy of within 0.0001? (8 terms means the terms where n = 0, 1, 2, 3, ..., 7.) Note: This was changed from "7 terms".

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Chapter1: Functions And Models
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12(-1)"
3" (2n + 1)
V12(-1)"
3" (2n + 1)
1. Consider the series )
Note: this was changed from
n=0
n=1
(a)
Use any test for convergence/divergence to show that the series converges.
------
V12(-1)"
3" (2n + 1)
(You do NOT need to prove this, but it can be done somewhat easily using a
(Ь)
It is possible to show that the sum of the series >
is T, in other words, the series
---- ---
n=0
converges to the number 7.
Taylor series expansion of arctan x.)
Suppose you want to use a partial sum of this series to estimate the value of T to an accuracy of within
0.0001. Would using the first 8 terms of the series be enough to ensure you get an accuracy of within
0.0001? (8 terms means the terms where n = 0, 1,2, 3, ..., 7.)
Note: This was changed from "7 terms".
Hint: Use Theorem 5.14.
Transcribed Image Text:12(-1)" 3" (2n + 1) V12(-1)" 3" (2n + 1) 1. Consider the series ) Note: this was changed from n=0 n=1 (a) Use any test for convergence/divergence to show that the series converges. ------ V12(-1)" 3" (2n + 1) (You do NOT need to prove this, but it can be done somewhat easily using a (Ь) It is possible to show that the sum of the series > is T, in other words, the series ---- --- n=0 converges to the number 7. Taylor series expansion of arctan x.) Suppose you want to use a partial sum of this series to estimate the value of T to an accuracy of within 0.0001. Would using the first 8 terms of the series be enough to ensure you get an accuracy of within 0.0001? (8 terms means the terms where n = 0, 1,2, 3, ..., 7.) Note: This was changed from "7 terms". Hint: Use Theorem 5.14.
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