Compute hard integral. [closed]

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Can anybody show me how to compute the following integral:



$$intleft(fracx+1xright)^!xdx?$$




calculus integration improper-integrals




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closed as off-topic by Adrian Keister, Xander Henderson, user 108128, Mostafa Ayaz, Strants Aug 1 at 19:32


This question appears to be off-topic. The users who voted to close gave this specific reason:


  • "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – Adrian Keister, Xander Henderson, user 108128, Mostafa Ayaz, Strants
If this question can be reworded to fit the rules in the help center, please edit the question.








  • 1




    The Wolfram Dev Platform (Mathematica) can't do anything with it; I'm guessing it doesn't have an elementary antiderivative.
    – Adrian Keister
    Aug 1 at 18:44






  • 1




    Is there a reason you expect this to have an elementary antiderivative?
    – Elliot G
    Aug 1 at 18:45










  • I'm not that advanced nor skilled in calculus so I only tried inspection, U substitution and integration by parts. This was given to me by my teacher a long time ago.
    – Hatim Blilet
    Aug 1 at 19:02






  • 2




    Were there limits in the original question? E.g. integrating between 0 and 1?
    – packetpacket
    Aug 1 at 19:05










  • It was given without limits I think. If say there were limits will it be easier to evaluate?
    – Hatim Blilet
    Aug 1 at 19:40














up vote
-4
down vote

favorite
2












Can anybody show me how to compute the following integral:



$$intleft(fracx+1xright)^!xdx?$$




calculus integration improper-integrals




share|cite|improve this question













closed as off-topic by Adrian Keister, Xander Henderson, user 108128, Mostafa Ayaz, Strants Aug 1 at 19:32


This question appears to be off-topic. The users who voted to close gave this specific reason:


  • "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – Adrian Keister, Xander Henderson, user 108128, Mostafa Ayaz, Strants
If this question can be reworded to fit the rules in the help center, please edit the question.








  • 1




    The Wolfram Dev Platform (Mathematica) can't do anything with it; I'm guessing it doesn't have an elementary antiderivative.
    – Adrian Keister
    Aug 1 at 18:44






  • 1




    Is there a reason you expect this to have an elementary antiderivative?
    – Elliot G
    Aug 1 at 18:45










  • I'm not that advanced nor skilled in calculus so I only tried inspection, U substitution and integration by parts. This was given to me by my teacher a long time ago.
    – Hatim Blilet
    Aug 1 at 19:02






  • 2




    Were there limits in the original question? E.g. integrating between 0 and 1?
    – packetpacket
    Aug 1 at 19:05










  • It was given without limits I think. If say there were limits will it be easier to evaluate?
    – Hatim Blilet
    Aug 1 at 19:40












up vote
-4
down vote

favorite
2









up vote
-4
down vote

favorite
2






2





Can anybody show me how to compute the following integral:



$$intleft(fracx+1xright)^!xdx?$$




calculus integration improper-integrals




share|cite|improve this question













Can anybody show me how to compute the following integral:



$$intleft(fracx+1xright)^!xdx?$$





calculus integration improper-integrals





share|cite|improve this question












share|cite|improve this question




share|cite|improve this question








edited Aug 1 at 18:42









Adrian Keister

3,49321533




3,49321533









asked Aug 1 at 18:37









Hatim Blilet

62




62




closed as off-topic by Adrian Keister, Xander Henderson, user 108128, Mostafa Ayaz, Strants Aug 1 at 19:32


This question appears to be off-topic. The users who voted to close gave this specific reason:


  • "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – Adrian Keister, Xander Henderson, user 108128, Mostafa Ayaz, Strants
If this question can be reworded to fit the rules in the help center, please edit the question.




closed as off-topic by Adrian Keister, Xander Henderson, user 108128, Mostafa Ayaz, Strants Aug 1 at 19:32


This question appears to be off-topic. The users who voted to close gave this specific reason:


  • "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – Adrian Keister, Xander Henderson, user 108128, Mostafa Ayaz, Strants
If this question can be reworded to fit the rules in the help center, please edit the question.







  • 1




    The Wolfram Dev Platform (Mathematica) can't do anything with it; I'm guessing it doesn't have an elementary antiderivative.
    – Adrian Keister
    Aug 1 at 18:44






  • 1




    Is there a reason you expect this to have an elementary antiderivative?
    – Elliot G
    Aug 1 at 18:45










  • I'm not that advanced nor skilled in calculus so I only tried inspection, U substitution and integration by parts. This was given to me by my teacher a long time ago.
    – Hatim Blilet
    Aug 1 at 19:02






  • 2




    Were there limits in the original question? E.g. integrating between 0 and 1?
    – packetpacket
    Aug 1 at 19:05










  • It was given without limits I think. If say there were limits will it be easier to evaluate?
    – Hatim Blilet
    Aug 1 at 19:40












  • 1




    The Wolfram Dev Platform (Mathematica) can't do anything with it; I'm guessing it doesn't have an elementary antiderivative.
    – Adrian Keister
    Aug 1 at 18:44






  • 1




    Is there a reason you expect this to have an elementary antiderivative?
    – Elliot G
    Aug 1 at 18:45










  • I'm not that advanced nor skilled in calculus so I only tried inspection, U substitution and integration by parts. This was given to me by my teacher a long time ago.
    – Hatim Blilet
    Aug 1 at 19:02






  • 2




    Were there limits in the original question? E.g. integrating between 0 and 1?
    – packetpacket
    Aug 1 at 19:05










  • It was given without limits I think. If say there were limits will it be easier to evaluate?
    – Hatim Blilet
    Aug 1 at 19:40







1




1




The Wolfram Dev Platform (Mathematica) can't do anything with it; I'm guessing it doesn't have an elementary antiderivative.
– Adrian Keister
Aug 1 at 18:44




The Wolfram Dev Platform (Mathematica) can't do anything with it; I'm guessing it doesn't have an elementary antiderivative.
– Adrian Keister
Aug 1 at 18:44




1




1




Is there a reason you expect this to have an elementary antiderivative?
– Elliot G
Aug 1 at 18:45




Is there a reason you expect this to have an elementary antiderivative?
– Elliot G
Aug 1 at 18:45












I'm not that advanced nor skilled in calculus so I only tried inspection, U substitution and integration by parts. This was given to me by my teacher a long time ago.
– Hatim Blilet
Aug 1 at 19:02




I'm not that advanced nor skilled in calculus so I only tried inspection, U substitution and integration by parts. This was given to me by my teacher a long time ago.
– Hatim Blilet
Aug 1 at 19:02




2




2




Were there limits in the original question? E.g. integrating between 0 and 1?
– packetpacket
Aug 1 at 19:05




Were there limits in the original question? E.g. integrating between 0 and 1?
– packetpacket
Aug 1 at 19:05












It was given without limits I think. If say there were limits will it be easier to evaluate?
– Hatim Blilet
Aug 1 at 19:40




It was given without limits I think. If say there were limits will it be easier to evaluate?
– Hatim Blilet
Aug 1 at 19:40















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