Does the Sum of this Infinite Series Converge or Diverge?

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SUMMARY

The infinite series \(\sum_{i=1}^{\infty} x^{C-i}\) converges or diverges based on the absolute value of \(x\). It can be rewritten as \(x^{C} \sum_{i=1}^{\infty} x^{-i}\), which is a geometric series that converges for \(|x| > 1\). The convergence is independent of whether \(x\) is a whole number. The final expression for the sum is \(\frac{x^{C}}{x-1}\) for \(|x| > 1\).

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Does this sum converge of diverge? C is a constant

\sum_{i=1}^{\infty} x^{C-i}

Is there an easy way to tell if something converges or diverges?
 
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Convergence of the given sum depends on the absolute value of x.

Note that you can rewrite your sum as x^(C)*Sum(i=1,inf)1/(x^(i))
But this is closely related to the well-known geometric series..
 
Ok if X is a whole number, it diverges right?
 
It is a geometric progression with initial term x^c and common ratio x^{-1} (arildno has a minus sign missing}

as such it converges for all reall x with |1/x|<1, ie |x|>1
 
Since C is a constant and the sum is over the index i, you can take xC out of the sum and get
x^C \sum_{i=1}^{\infty} x^{-i}

You should now be able to recognize the remaining sum as a geometric series in (1/x) which converges for -1< 1/x < 1- that is, x< -1 or x> 1.
Convergence and divergence has nothing whatsoever to do with whether x is a whole number or not.
 
Ok here is my next question, is it possible that:

X^C &lt; \sum_{i=1}^{\infty} X^{C-i}
 
Last edited:
That would depend on what X, and x are. As the sum is \frac{x^{C+1}}{1-1/x} given that for the sum to make sense |x|>1. I'm sure you can do the manipulation.

edited to allow for the sum running from 1 to infinity, not 0 to infinity
 
Last edited:
Hmm.., I thought the sum was x^(C)/(x-1)
 
it could well be, i get bored keeping track of the details. i now think it is x^{c-1}/(1-1/x), which was the second one i put in there and works out at x^c/(x-1) doesn't it?
 
  • #10
Sure, I thought it was merely a typo or someting.
 

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