Does the following series converge or diverge? \sum_{n=1}^\infty\frac{1}{\sqrt{n}+\sqrt{n+1}}

William Montgomery

William Montgomery

Answered question

2022-01-21

Does the following series converge or diverge?
n=11n+n+1

Answer & Explanation

Hana Larsen

Hana Larsen

Beginner2022-01-22Added 17 answers

It was not entirely obvious to me that the infinite sum of differences between square roots diverges, so I did telescoping:
n=1(1n+1+n)=n=1(n+1nn+1n)
=n=1(n+1n)
=limNn=1N(n+1n)
=limN(21+32++N+1N)
=limN(N+11)
So the limit of partial sum is equal to infinity.
Kudusind

Kudusind

Beginner2022-01-23Added 11 answers

For n1, we have n+n+12n+12(n+1)4n hence
1n+n+114n0
and we can conclude using the fact that the harmonic series k=1+1k is divergent.
RizerMix

RizerMix

Expert2022-01-27Added 656 answers

It is not hard to see that n=11n+1+n=n=1(n+1n) As you know this series is divergent.

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