MHB Evaluate the sum ∑n/[n^4+n^2+1]

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Evaluate the sum:\[\sum_{n = 0}^{\infty}\frac{n}{n^4+n^2+1}\]
 
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lfdahl said:
Evaluate the sum:\[\sum_{n = 0}^{\infty}\frac{n}{n^4+n^2+1}\]

as 1st term is zero so the um can be taken from 1 to infinite
the n$th$ term is $\frac{n}{n^4+n^2+1}= \frac{n}{n^4+2n^2+1-n^2}= \frac{n}{(n^2+1)^2-n^2}= \frac{n}{(n^2+n+1) (n^2 -n + 1)} $
$=\frac{1}{2}\frac{2n}{(n^2+n+1)(n^2 -n + 1)} $
$=\frac{1}{2}\frac{(n^2+n+1)- (n^2 -n + 1)}{(n^2+n+1)(n^2 -n + 1)} $
$=\frac{1}{2}(\frac{1}{n^2-n+1}-\frac{1}{n^2+n+1}) $
$=\frac{1}{2}(\frac{1}{n(n-1)+1}-\frac{1}{n(n+1)+1}) $
so summing from 1 to infinite we get
sum = $\sum_{1}^\infty(\frac{1}{2}(\frac{1}{n(n-1)+1}-\frac{1}{(n+1)n+1})$
$=\frac{1}{2}(\sum_{1}^\infty(\frac{1}{n(n-1)+1}-\frac{1}{(n+1)n+1})$
$=\frac{1}{2}(\sum_{1}^\infty(\frac{1}{n(n-1)+1})-\sum_{1}^\infty(\frac{1}{(n+1)n+1})$
$=\frac{1}{2}(\sum_{1}^\infty(\frac{1}{n(n-1)+1})-\sum_{2}^\infty(\frac{1}{(n-1)n+1})$
now all the terms except 1st term cancell leaving $=\frac{1}{2}(\frac{1}{1(1-1)+1})$ or $\frac{1}{2}$
 
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Very nice.

-Dan
 
kaliprasad said:
as 1st term is zero so the um can be taken from 1 to infinite
the n$th$ term is $\frac{n}{n^4+n^2+1}= \frac{n}{n^4+2n^2+1-n^2}= \frac{n}{(n^2+1)^2-n^2}= \frac{n}{(n^2+n+1) (n^2 -n + 1)} $
$=\frac{1}{2}\frac{2n}{(n^2+n+1)(n^2 -n + 1)} $
$=\frac{1}{2}\frac{(n^2+n+1)- (n^2 -n + 1)}{(n^2+n+1)(n^2 -n + 1)} $
$=\frac{1}{2}(\frac{1}{n^2-n+1}-\frac{1}{n^2+n+1}) $
$=\frac{1}{2}(\frac{1}{n(n-1)+1}-\frac{1}{n(n+1)+1}) $
so summing from 1 to infinite we get
sum = $\sum_{1}^\infty(\frac{1}{2}(\frac{1}{n(n-1)+1}-\frac{1}{(n+1)n+1})$
$=\frac{1}{2}(\sum_{1}^\infty(\frac{1}{n(n-1)+1}-\frac{1}{(n+1)n+1})$
$=\frac{1}{2}(\sum_{1}^\infty(\frac{1}{n(n-1)+1})-\sum_{1}^\infty(\frac{1}{(n+1)n+1})$
$=\frac{1}{2}(\sum_{1}^\infty(\frac{1}{n(n-1)+1})-\sum_{2}^\infty(\frac{1}{(n-1)n+1})$
now all the terms except 1st term cancell leaving $=\frac{1}{2}(\frac{1}{1(1-1)+1})$ or $\frac{1}{2}$

Very well done, kaliprasad! (Cool)
 
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