Can You Find the Convergent Value of α for this Improper Integral?

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Homework Help Overview

The problem involves determining the values of the constant α for which the improper integral ∫ [(x/(x^2 + 1)) - (3α/(3x + 1))] dx from 0 to +∞ converges. The original poster expresses uncertainty about how to approach the problem and considers separating the integral into two parts.

Discussion Character

  • Exploratory, Assumption checking

Approaches and Questions Raised

  • The original poster attempts to separate the integral and considers a substitution for the second part. Some participants suggest verifying the substitution and working towards finding the antiderivative. Others raise concerns about the divergence of the logarithmic term as x approaches infinity and question how to achieve convergence.

Discussion Status

Participants are actively discussing the approach to the problem, with some guidance provided on the substitution and antiderivative. There is recognition of the potential divergence of the integral, and participants are exploring how specific values of α might influence convergence.

Contextual Notes

There is a noted confusion regarding the behavior of the logarithmic term as x approaches infinity, and participants are considering how to combine the two integral expressions to address the divergence.

wolski888
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EDIT: I am sorry if you can't understand the integral straight away, I am not familiar with using the notion provided by this forum. I tried, but...

Homework Statement


Find all values of the constant α for which the integral:
∫ [(x/(x^2 + 1)) - (3a/(3x + 1))] dx (from 0 to +infinitity)
converges. Evaluate the integral for these values of α (as a function of α).

The Attempt at a Solution


I don't really know how to approach this. It seems simpler to separate it into 2 separate integrals. And in the integral with the constant 'a', I can sub u = 3x + 1, then du = 3dx
Making it: adu/x

I don't really know if I am on the right track.

Thanks for reading this!
Mike
 
Last edited:
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You probably mean adu/u for your substitution. You are started on the right track. Work out both integrals and get the antiderivative as a function of x. Once you get that start working on what the limit of it is as x->infinity. Using the rules of logs will help.
 
Yes, adu/u. My fault. And thanks!
 
OK, now I am confused. The ln|3x+1| as x goes to infinity is infinity. So it diverges. But how do I make it converge? Same with the first part of the integral...
 
wolski888 said:
OK, now I am confused. The ln|3x+1| as x goes to infinity is infinity. So it diverges. But how do I make it converge? Same with the first part of the integral...

Combine the two integral expressions. Use rules of logs. For a special value of a the divergences might cancel.
 

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