Prove this improper integral is finite











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I tried to expand the term in the integral but it turns out to be of order 1/x and diverges...
Any help is appreciated! Thanks in advance!
$int_{0}^{infty}sqrt{log (1+1/x^2)}dx<infty?$










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  • What have you tried?
    – Makina
    Nov 18 at 8:33












  • I tried to expand it but it turned out to be of order 1/x and diverges..
    – user49229
    Nov 18 at 8:36










  • @user49229 Edit that into the question.
    – J.G.
    Nov 18 at 8:40










  • You cannot prove it is finite because it is not, exactly for $$sqrt{logleft(1+tfrac{1}{x^2}right)}simfrac{1}{x}.$$
    – Jack D'Aurizio
    Nov 18 at 16:34















up vote
-1
down vote

favorite












I tried to expand the term in the integral but it turns out to be of order 1/x and diverges...
Any help is appreciated! Thanks in advance!
$int_{0}^{infty}sqrt{log (1+1/x^2)}dx<infty?$










share|cite|improve this question
























  • What have you tried?
    – Makina
    Nov 18 at 8:33












  • I tried to expand it but it turned out to be of order 1/x and diverges..
    – user49229
    Nov 18 at 8:36










  • @user49229 Edit that into the question.
    – J.G.
    Nov 18 at 8:40










  • You cannot prove it is finite because it is not, exactly for $$sqrt{logleft(1+tfrac{1}{x^2}right)}simfrac{1}{x}.$$
    – Jack D'Aurizio
    Nov 18 at 16:34













up vote
-1
down vote

favorite









up vote
-1
down vote

favorite











I tried to expand the term in the integral but it turns out to be of order 1/x and diverges...
Any help is appreciated! Thanks in advance!
$int_{0}^{infty}sqrt{log (1+1/x^2)}dx<infty?$










share|cite|improve this question















I tried to expand the term in the integral but it turns out to be of order 1/x and diverges...
Any help is appreciated! Thanks in advance!
$int_{0}^{infty}sqrt{log (1+1/x^2)}dx<infty?$







calculus integration complex-analysis residue-calculus






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share|cite|improve this question













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edited Nov 18 at 8:41

























asked Nov 18 at 8:30









user49229

144




144












  • What have you tried?
    – Makina
    Nov 18 at 8:33












  • I tried to expand it but it turned out to be of order 1/x and diverges..
    – user49229
    Nov 18 at 8:36










  • @user49229 Edit that into the question.
    – J.G.
    Nov 18 at 8:40










  • You cannot prove it is finite because it is not, exactly for $$sqrt{logleft(1+tfrac{1}{x^2}right)}simfrac{1}{x}.$$
    – Jack D'Aurizio
    Nov 18 at 16:34


















  • What have you tried?
    – Makina
    Nov 18 at 8:33












  • I tried to expand it but it turned out to be of order 1/x and diverges..
    – user49229
    Nov 18 at 8:36










  • @user49229 Edit that into the question.
    – J.G.
    Nov 18 at 8:40










  • You cannot prove it is finite because it is not, exactly for $$sqrt{logleft(1+tfrac{1}{x^2}right)}simfrac{1}{x}.$$
    – Jack D'Aurizio
    Nov 18 at 16:34
















What have you tried?
– Makina
Nov 18 at 8:33






What have you tried?
– Makina
Nov 18 at 8:33














I tried to expand it but it turned out to be of order 1/x and diverges..
– user49229
Nov 18 at 8:36




I tried to expand it but it turned out to be of order 1/x and diverges..
– user49229
Nov 18 at 8:36












@user49229 Edit that into the question.
– J.G.
Nov 18 at 8:40




@user49229 Edit that into the question.
– J.G.
Nov 18 at 8:40












You cannot prove it is finite because it is not, exactly for $$sqrt{logleft(1+tfrac{1}{x^2}right)}simfrac{1}{x}.$$
– Jack D'Aurizio
Nov 18 at 16:34




You cannot prove it is finite because it is not, exactly for $$sqrt{logleft(1+tfrac{1}{x^2}right)}simfrac{1}{x}.$$
– Jack D'Aurizio
Nov 18 at 16:34










1 Answer
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This expression is good to check the integrability at $infty$. For the integrability in 0, try to set $1/x^2=t$.






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    1 Answer
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    1 Answer
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    up vote
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    This expression is good to check the integrability at $infty$. For the integrability in 0, try to set $1/x^2=t$.






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      up vote
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      down vote













      This expression is good to check the integrability at $infty$. For the integrability in 0, try to set $1/x^2=t$.






      share|cite|improve this answer























        up vote
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        up vote
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        down vote









        This expression is good to check the integrability at $infty$. For the integrability in 0, try to set $1/x^2=t$.






        share|cite|improve this answer












        This expression is good to check the integrability at $infty$. For the integrability in 0, try to set $1/x^2=t$.







        share|cite|improve this answer












        share|cite|improve this answer



        share|cite|improve this answer










        answered Nov 18 at 8:48









        Marco

        1909




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