Can you determine the convergence of this sum notation series for math homework?

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SUMMARY

The series in question is defined as (1+2)/(1+3) + (1+2+4)/(1+3+9) + (1+2+4+8)/(1+3+9+27), with the general term expressed as a_n = \frac{\sum_{i = 0}^n 2^i}{\sum_{i = 0}^n 3^i}. This series consists of geometric series in both the numerator and denominator. To determine convergence, one must evaluate the limit of a_n as n approaches infinity. If the limit yields a nonzero value, the series diverges; if it approaches zero, further tests such as the ratio test or limit comparison test are necessary.

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Homework Statement



Determine whether series diverges of converges (conditionally or absolutely)
(1+2)/(1+3) + (1+2+4)/(1+3+9) + (1+2+4+8)/(1+3+9+27) ...

Homework Equations


The Attempt at a Solution



I'm assuming that I would have to put it into sum notation but I am struggling with that.
 
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chemnoob. said:

Homework Statement



Determine whether series diverges of converges (conditionally or absolutely)
(1+2)/(1+3) + (1+2+4)/(1+3+9) + (1+2+4+8)/(1+3+9+27) ...

Homework Equations





The Attempt at a Solution



I'm assuming that I would have to put it into sum notation but I am struggling with that.
It looks to me like the general term of your series is
a_n = \frac{\sum_{i = 0}^n 2^i}{\sum_{i = 0}^n 3^i}

Can you work with that?
 


What test should I try using?
 


Both series are geometric series, so you should be able to get a simpler expression for an. Once you do that, you could take the limit of an as n goes to infinity. If you get a nonzero value, you know the series diverges. If you get zero, then you need to use more tests, such as the ratio test, limit comparison test, etc.
 


Mark44 said:
It looks to me like the general term of your series is
a_n = \frac{\sum_{i = 0}^n 2^i}{\sum_{i = 0}^n 3^i}

Can you work with that?

I think you are missing a sum at the beginning of all of that .. but I still don't know how you would go about solving that!
 


What I wrote is the general term of the series, not the whole series. See if you can write an without the two summations, using what you know about finite geometric series.
 

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