First kind Volterra integral equation regularity












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Let $K(x,y) in {L^2}({(0,1)^2})$ and $g in {L^2}(0,1)$. We consider the following integral equation
$$intlimits_0^x {K(x,t)f(t)dt = g(x)} $$
My question: what can we say about the regularity of $f$ if it exists? Thanks.










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  • 1




    $begingroup$
    There is nothing we can say without knowing more about $g$, since any $f in L^2$ may be the solution of such an equation with a suitable $g$.
    $endgroup$
    – Hans Engler
    Dec 15 '18 at 15:40










  • $begingroup$
    Thank you sir. What if wa add $f$ to tge second member which will make the equation of second kind. Can we ensure that $f$ is $L^2$? thank you.
    $endgroup$
    – Gustave
    Dec 16 '18 at 10:26
















0












$begingroup$


Let $K(x,y) in {L^2}({(0,1)^2})$ and $g in {L^2}(0,1)$. We consider the following integral equation
$$intlimits_0^x {K(x,t)f(t)dt = g(x)} $$
My question: what can we say about the regularity of $f$ if it exists? Thanks.










share|cite|improve this question









$endgroup$








  • 1




    $begingroup$
    There is nothing we can say without knowing more about $g$, since any $f in L^2$ may be the solution of such an equation with a suitable $g$.
    $endgroup$
    – Hans Engler
    Dec 15 '18 at 15:40










  • $begingroup$
    Thank you sir. What if wa add $f$ to tge second member which will make the equation of second kind. Can we ensure that $f$ is $L^2$? thank you.
    $endgroup$
    – Gustave
    Dec 16 '18 at 10:26














0












0








0





$begingroup$


Let $K(x,y) in {L^2}({(0,1)^2})$ and $g in {L^2}(0,1)$. We consider the following integral equation
$$intlimits_0^x {K(x,t)f(t)dt = g(x)} $$
My question: what can we say about the regularity of $f$ if it exists? Thanks.










share|cite|improve this question









$endgroup$




Let $K(x,y) in {L^2}({(0,1)^2})$ and $g in {L^2}(0,1)$. We consider the following integral equation
$$intlimits_0^x {K(x,t)f(t)dt = g(x)} $$
My question: what can we say about the regularity of $f$ if it exists? Thanks.







real-analysis functional-analysis ordinary-differential-equations integral-equations






share|cite|improve this question













share|cite|improve this question











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share|cite|improve this question










asked Dec 15 '18 at 14:52









GustaveGustave

729211




729211








  • 1




    $begingroup$
    There is nothing we can say without knowing more about $g$, since any $f in L^2$ may be the solution of such an equation with a suitable $g$.
    $endgroup$
    – Hans Engler
    Dec 15 '18 at 15:40










  • $begingroup$
    Thank you sir. What if wa add $f$ to tge second member which will make the equation of second kind. Can we ensure that $f$ is $L^2$? thank you.
    $endgroup$
    – Gustave
    Dec 16 '18 at 10:26














  • 1




    $begingroup$
    There is nothing we can say without knowing more about $g$, since any $f in L^2$ may be the solution of such an equation with a suitable $g$.
    $endgroup$
    – Hans Engler
    Dec 15 '18 at 15:40










  • $begingroup$
    Thank you sir. What if wa add $f$ to tge second member which will make the equation of second kind. Can we ensure that $f$ is $L^2$? thank you.
    $endgroup$
    – Gustave
    Dec 16 '18 at 10:26








1




1




$begingroup$
There is nothing we can say without knowing more about $g$, since any $f in L^2$ may be the solution of such an equation with a suitable $g$.
$endgroup$
– Hans Engler
Dec 15 '18 at 15:40




$begingroup$
There is nothing we can say without knowing more about $g$, since any $f in L^2$ may be the solution of such an equation with a suitable $g$.
$endgroup$
– Hans Engler
Dec 15 '18 at 15:40












$begingroup$
Thank you sir. What if wa add $f$ to tge second member which will make the equation of second kind. Can we ensure that $f$ is $L^2$? thank you.
$endgroup$
– Gustave
Dec 16 '18 at 10:26




$begingroup$
Thank you sir. What if wa add $f$ to tge second member which will make the equation of second kind. Can we ensure that $f$ is $L^2$? thank you.
$endgroup$
– Gustave
Dec 16 '18 at 10:26










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