$lim_{|h|rightarrow 0} ||f(x+h)-f(x)||_p=0$ for $p =infty$












1












$begingroup$


For $fin L^p(X)$ where $pin [1,infty)$. we have
$$lim_{|h|rightarrow 0} ||f(x+h)-f(x)||_p=0$$
I use the fact that continuous function with compact support is dense in $L^p$ to prove the case for $p<infty$. If I consider the case $p=infty$, the method that I used fails here, but how do I find an example that fails at $p=infty$?



edit:



If I consider $f(x)=chi_{[0,x]}$, then $||f(x+h)-f(x)||_infty=1$, therefore
$$lim_{|h|rightarrow 0} ||f(x+h)-f(x)||_p= lim_{|h|rightarrow 0} 1 =1$$
Is this correct?










share|cite|improve this question











$endgroup$








  • 2




    $begingroup$
    For example, consider the characteristic function of an interval.
    $endgroup$
    – Rigel
    Jan 7 at 12:52










  • $begingroup$
    @Rigel thank you. If I consider $f(x)=chi_{[0,x]}$, then the norm still go to $0$. How do I construct it?
    $endgroup$
    – Reinherd
    Jan 7 at 13:09












  • $begingroup$
    @Reinherd Why do you think that the norm goes to zero?
    $endgroup$
    – saz
    Jan 7 at 13:21










  • $begingroup$
    @saz I think I might be wrong about taking the limit directly to make $h=0$. Actually , the norm is always 1 before taking the limit. So it is still 1 even though I take the limit, is it?
    $endgroup$
    – Reinherd
    Jan 7 at 13:28






  • 1




    $begingroup$
    Saying $f(x)=chi_{[0,x]}$ doesn't make much sense - that would say that $f:Bbb Rto L^infty$, not $fin L^infty$. As already suggested, try $f$ equal to the characteristic function of an interval. Like $f=chi_{[0,1]}$.
    $endgroup$
    – David C. Ullrich
    Jan 7 at 14:35


















1












$begingroup$


For $fin L^p(X)$ where $pin [1,infty)$. we have
$$lim_{|h|rightarrow 0} ||f(x+h)-f(x)||_p=0$$
I use the fact that continuous function with compact support is dense in $L^p$ to prove the case for $p<infty$. If I consider the case $p=infty$, the method that I used fails here, but how do I find an example that fails at $p=infty$?



edit:



If I consider $f(x)=chi_{[0,x]}$, then $||f(x+h)-f(x)||_infty=1$, therefore
$$lim_{|h|rightarrow 0} ||f(x+h)-f(x)||_p= lim_{|h|rightarrow 0} 1 =1$$
Is this correct?










share|cite|improve this question











$endgroup$








  • 2




    $begingroup$
    For example, consider the characteristic function of an interval.
    $endgroup$
    – Rigel
    Jan 7 at 12:52










  • $begingroup$
    @Rigel thank you. If I consider $f(x)=chi_{[0,x]}$, then the norm still go to $0$. How do I construct it?
    $endgroup$
    – Reinherd
    Jan 7 at 13:09












  • $begingroup$
    @Reinherd Why do you think that the norm goes to zero?
    $endgroup$
    – saz
    Jan 7 at 13:21










  • $begingroup$
    @saz I think I might be wrong about taking the limit directly to make $h=0$. Actually , the norm is always 1 before taking the limit. So it is still 1 even though I take the limit, is it?
    $endgroup$
    – Reinherd
    Jan 7 at 13:28






  • 1




    $begingroup$
    Saying $f(x)=chi_{[0,x]}$ doesn't make much sense - that would say that $f:Bbb Rto L^infty$, not $fin L^infty$. As already suggested, try $f$ equal to the characteristic function of an interval. Like $f=chi_{[0,1]}$.
    $endgroup$
    – David C. Ullrich
    Jan 7 at 14:35
















1












1








1





$begingroup$


For $fin L^p(X)$ where $pin [1,infty)$. we have
$$lim_{|h|rightarrow 0} ||f(x+h)-f(x)||_p=0$$
I use the fact that continuous function with compact support is dense in $L^p$ to prove the case for $p<infty$. If I consider the case $p=infty$, the method that I used fails here, but how do I find an example that fails at $p=infty$?



edit:



If I consider $f(x)=chi_{[0,x]}$, then $||f(x+h)-f(x)||_infty=1$, therefore
$$lim_{|h|rightarrow 0} ||f(x+h)-f(x)||_p= lim_{|h|rightarrow 0} 1 =1$$
Is this correct?










share|cite|improve this question











$endgroup$




For $fin L^p(X)$ where $pin [1,infty)$. we have
$$lim_{|h|rightarrow 0} ||f(x+h)-f(x)||_p=0$$
I use the fact that continuous function with compact support is dense in $L^p$ to prove the case for $p<infty$. If I consider the case $p=infty$, the method that I used fails here, but how do I find an example that fails at $p=infty$?



edit:



If I consider $f(x)=chi_{[0,x]}$, then $||f(x+h)-f(x)||_infty=1$, therefore
$$lim_{|h|rightarrow 0} ||f(x+h)-f(x)||_p= lim_{|h|rightarrow 0} 1 =1$$
Is this correct?







real-analysis functional-analysis






share|cite|improve this question















share|cite|improve this question













share|cite|improve this question




share|cite|improve this question








edited Jan 7 at 13:33







Reinherd

















asked Jan 7 at 12:44









ReinherdReinherd

764




764








  • 2




    $begingroup$
    For example, consider the characteristic function of an interval.
    $endgroup$
    – Rigel
    Jan 7 at 12:52










  • $begingroup$
    @Rigel thank you. If I consider $f(x)=chi_{[0,x]}$, then the norm still go to $0$. How do I construct it?
    $endgroup$
    – Reinherd
    Jan 7 at 13:09












  • $begingroup$
    @Reinherd Why do you think that the norm goes to zero?
    $endgroup$
    – saz
    Jan 7 at 13:21










  • $begingroup$
    @saz I think I might be wrong about taking the limit directly to make $h=0$. Actually , the norm is always 1 before taking the limit. So it is still 1 even though I take the limit, is it?
    $endgroup$
    – Reinherd
    Jan 7 at 13:28






  • 1




    $begingroup$
    Saying $f(x)=chi_{[0,x]}$ doesn't make much sense - that would say that $f:Bbb Rto L^infty$, not $fin L^infty$. As already suggested, try $f$ equal to the characteristic function of an interval. Like $f=chi_{[0,1]}$.
    $endgroup$
    – David C. Ullrich
    Jan 7 at 14:35
















  • 2




    $begingroup$
    For example, consider the characteristic function of an interval.
    $endgroup$
    – Rigel
    Jan 7 at 12:52










  • $begingroup$
    @Rigel thank you. If I consider $f(x)=chi_{[0,x]}$, then the norm still go to $0$. How do I construct it?
    $endgroup$
    – Reinherd
    Jan 7 at 13:09












  • $begingroup$
    @Reinherd Why do you think that the norm goes to zero?
    $endgroup$
    – saz
    Jan 7 at 13:21










  • $begingroup$
    @saz I think I might be wrong about taking the limit directly to make $h=0$. Actually , the norm is always 1 before taking the limit. So it is still 1 even though I take the limit, is it?
    $endgroup$
    – Reinherd
    Jan 7 at 13:28






  • 1




    $begingroup$
    Saying $f(x)=chi_{[0,x]}$ doesn't make much sense - that would say that $f:Bbb Rto L^infty$, not $fin L^infty$. As already suggested, try $f$ equal to the characteristic function of an interval. Like $f=chi_{[0,1]}$.
    $endgroup$
    – David C. Ullrich
    Jan 7 at 14:35










2




2




$begingroup$
For example, consider the characteristic function of an interval.
$endgroup$
– Rigel
Jan 7 at 12:52




$begingroup$
For example, consider the characteristic function of an interval.
$endgroup$
– Rigel
Jan 7 at 12:52












$begingroup$
@Rigel thank you. If I consider $f(x)=chi_{[0,x]}$, then the norm still go to $0$. How do I construct it?
$endgroup$
– Reinherd
Jan 7 at 13:09






$begingroup$
@Rigel thank you. If I consider $f(x)=chi_{[0,x]}$, then the norm still go to $0$. How do I construct it?
$endgroup$
– Reinherd
Jan 7 at 13:09














$begingroup$
@Reinherd Why do you think that the norm goes to zero?
$endgroup$
– saz
Jan 7 at 13:21




$begingroup$
@Reinherd Why do you think that the norm goes to zero?
$endgroup$
– saz
Jan 7 at 13:21












$begingroup$
@saz I think I might be wrong about taking the limit directly to make $h=0$. Actually , the norm is always 1 before taking the limit. So it is still 1 even though I take the limit, is it?
$endgroup$
– Reinherd
Jan 7 at 13:28




$begingroup$
@saz I think I might be wrong about taking the limit directly to make $h=0$. Actually , the norm is always 1 before taking the limit. So it is still 1 even though I take the limit, is it?
$endgroup$
– Reinherd
Jan 7 at 13:28




1




1




$begingroup$
Saying $f(x)=chi_{[0,x]}$ doesn't make much sense - that would say that $f:Bbb Rto L^infty$, not $fin L^infty$. As already suggested, try $f$ equal to the characteristic function of an interval. Like $f=chi_{[0,1]}$.
$endgroup$
– David C. Ullrich
Jan 7 at 14:35






$begingroup$
Saying $f(x)=chi_{[0,x]}$ doesn't make much sense - that would say that $f:Bbb Rto L^infty$, not $fin L^infty$. As already suggested, try $f$ equal to the characteristic function of an interval. Like $f=chi_{[0,1]}$.
$endgroup$
– David C. Ullrich
Jan 7 at 14:35












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