Respuesta :
Answer:
You need to sum at least 5000 terms
Step-by-step explanation:
Remember what the estimation theorem for alternating series says.
Given a series
[tex]s = \sum\limits_{n=0}^{\infty} (-1)^n a_n[/tex]
An upper bound for the error of the series [tex]R_n[/tex] is [tex]a_{n+1}[/tex] so
[tex]R_n = |s-s_n| \leq a_{n+1}[/tex]
For this case you want
[tex]\frac{1}{2n+1} \leq \frac{1}{10^4}\\10^4 \leq 2n+1\\(10^4-1 )/2 \leq n[/tex]
[tex](10^4-1 )/2[/tex] is approximately 5000. So you must sum at least 5000 terms.
Infinity Start Fraction (negative 1)Super-script k plus 1 Over k cubed End Fraction You need to sum at least 5000 terms.
What is a Fraction?
Remember what the estimation theorem for alternating series says.
Given a series as per question:
[tex]\infty \varsigma =\sum (-1ⁿ{}'') \eta =0[/tex]
An upper bound for the error of the series [tex]R\eta[/tex] is aₙ+1 so
[tex]R\eta[/tex]=[tex]\left | \right | s - sₙ \left | \right | ≤ aₙ + 1[/tex]
For this case you want
1/2n + 1 ≤ 1/10⁴
10⁴≤2n + 1
(10⁴-1)/≤2 n
[tex](10⁴-1)/2[/tex] is approximately 5000. So you must sum at least 5000 terms.
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