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I'd like to know if there are some nice ways to solve this type of integral defined as:

$$ \int_{a}^{b} \frac{\ln(px^2+qx+t)}{x^2+mx+n} \ dx$$

A few days ago I saw such an integral and it seemed pretty tricky since it's rather hard
to figure out where to start from.

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    is there any relation between $p,q$ and $m$2012-08-09
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    @avatar: I didn't take into account any relation of this kind.2012-08-09
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    As non-mathematicians often do, this posting uses "solve" as a catch-all verb. "Evaluate" would be appropriate. One _solves_ problems; one _solves_ equations; one _evaluates_ expressions.2012-08-09
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    FWIW: if you depress the quadratic within the logarithm and then perform partial fraction decomposition, you should end up with integrals of the form $$\int\frac{\log(au^2+c)}{u+f}\mathrm du$$ whose integration will involve the dilogarithm.2012-08-09
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    @ J. M.: this way it looks much better.2012-08-09
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    @Chris'sister : I frequently see the word "solve" mis-used in just that way not only in this forum, but in homework handed in by students, and elsewhere. I've never seen it in a paper written by a mathematician.2012-08-09
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    If $p,q=0$ then well-known partial fraction gives the answer. If $p=0$, $q\neq 0$ then the result contains the polylogarithm function, see http://www.wolframalpha.com/input/?i=integrate&a=*C.integrate-_*Calculator.dflt-&f2=ln%28q*x%2Bt%29%2F%28x^2%2Bm*x%2Bn%29&x=10&y=4&f=Integral.integrand_ln%28q*x%2Bt%29%2F%28x^2%2Bm*x%2Bn%29&f3=x&f=Integral.variable_x&a=*FVarOpt.1-_**-.***Integral.rangestart-.*Integral.rangeend---.**Integral.variable---2012-08-09
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    If $p\neq 0$ then the result also contains the polylogarythm function, see http://www.wolframalpha.com/input/?i=integrate&a=*C.integrate-_*Calculator.dflt-&f2=ln%28p*x^2%2Bq*x%2Bt%29%2F%28x^2%2Bm*x%2Bn%29&x=7&y=3&f=Integral.integrand_ln%28p*x^2%2Bq*x%2Bt%29%2F%28x^2%2Bm*x%2Bn%29&f3=x&f=Integral.variable_x&a=*FVarOpt.1-_**-.***Integral.rangestart-.*Integral.rangeend---.**Integral.variable--- Although some discussion is needed because the square root of some quantities.2012-08-09
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    @Chris'sister could you share us where saw such an integral and what does it mean "pretty tricky"? If I know well you have the possibility to ask and answer (Q&A) an interesting question if you think it would be useful for the community.2012-08-09
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    @vesszabo: I saw it during summer classes. Our teacher said this kind of problem is very nice and it's worth to try it.2012-08-09
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    Really, your teacher expects you to know dilogarithms?2012-08-10

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