Find a formula for the nth partial sum of the series and use it to determine whether the series converges or diverges. If a series converges, find its sum. sum_{n=1}^infty(cos^{-1}(frac{1}{n+1})-cos^{-1}(frac{1}{n+2}))

Bergen

Bergen

Answered question

2021-01-06

Find a formula for the nth partial sum of the series and use it to determine whether the series converges or diverges. If a series converges, find its sum.
n=1(cos1(1n+1)cos1(1n+2))

Answer & Explanation

BleabyinfibiaG

BleabyinfibiaG

Skilled2021-01-07Added 118 answers

The series,
n=1(cos1(1n+1)cos1(1n+2))
Consider a general term,
an=cos1(1n+1)cos1(1n+2)
Consider n-th partial sum:
Sn=n=1(cos1(1n+1)cos1(1n+2))
=(cos1(12)cos1(13))+(cos1(13)cos1(14)...+(cos1(1n)cos1(1n+1))+(cos1(1n+1)cos1(1n+2))
=cos1(12)cos1(13)+cos1(14)...cos1(1n)cos1(1n+1)+cos1(1n+1)cos1(1n+2)
By cancelling finite number of terms only first term and last term remains
=cos1(12)cos1(1n+2)
Therefore,
Sn=cos1(12)cos1(1n+2)
Sequence of partial sum:
{Sn}=cos1(12)cos1(1n+2)
Applying limit
limnSn=limn(cos1(12)cos1(1n+2))
=limn(cos1(12))limn(cos1(1n+2))
=π3limn(cos1(1n+2))
Using limit chain rule to solve
limn(cos1(1n+2))
limn(1n+2)=1=0
limn0(cos1(1n+2))=cos1(0)=π2
Jeffrey Jordon

Jeffrey Jordon

Expert2021-12-27Added 2605 answers

Answer is given below (on video)

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