Is the series covergent or divergent?

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The discussion revolves around determining the convergence or divergence of the series ∑(2/(√n + 1)). Initially, the user applied the divergence test, which yielded a result of zero, leading to confusion about the series' behavior. After further analysis and applying the limit comparison test with the harmonic series (∑1/n), it was concluded that the original series is actually divergent. A follow-up question was posed regarding another series ∑(1/(√n + √(n+1))), where the divergence test also failed, prompting the need for a suitable comparison series to assess convergence. The conversation emphasizes the importance of comparing series to known divergent or convergent benchmarks to draw accurate conclusions.
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is the series covergent or divergent?

I want to know that is the following series convergent or divergent??

\sum \frac{2}{\sqrt{n}+1}


when i apply divergent test to it, it comes equal to 0 , it means that divergent test gets failed. then how to solve it?

which test i should apply?

the correct answer in my copy is written as COnvergent, but I am not getting a convergent answer.

please help me as soon as possible!

Thanks in advance!
 
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Compare it to \sum 1/n.
 
shaiqbashir said:
the correct answer in my copy is written as COnvergent, but I am not getting a convergent answer.
Are you sure about that? Perhaps you should specify the limits, or may we assume from 0 (or 1?) to infinity?
 
Thanks for ur Help StatusX!

I applied Limit comparison test and it works with series 1/n as Bn.

thanks a lot once again!
 
But you know that the harmonic series (1/n) diverges, right?
 
okz okz! I am sorry for some mistakes.

the correct answer of the above series is this that the series is DIVERGENT not convergent. it was my mistake!
So that means that Status X was correct, we can compare it with 1/n and we can also compare it with 1/(n^1/2)

both will give divergence as result by using Basic Comparison test.

Now I am having another problem which looks like to me of the same sort. I don't know its correct answer. here is the problem :

\sum \frac{1}{\sqrt{n}+\sqrt{n+1}}

we have to find that is the following series converging or diverging??

here is what i have done:

The Divergence Test seems to be failed here as it is giving me an answer equals to zero!

Now if i go for basic comparison test, what series should i consider in order to compare it with above series?

I have worked on the following series and they don't give me proper results:

\sum \frac{1}{\sqrt{n}}

\sum \frac{1}{\sqrt{n+1}}

\sum \frac{1}{n}

\sum \frac{1}{n^(1.5)}

Then what should i consider?

please answer this question as soon as possible!

thanks in advance!
 
Last edited:
What do the terms look like as n gets very large? That should give you an idea of what to compare it to.
 

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