Difference between revisions of "Exam 9.1 OldKiwi" - Rhea

Revision as of 15:19, 22 July 2008

a) $|h(x)| \leq (\int |f(x-y)|^p dy)^{1/p}(\int |g(y)|^q dy)^{1/q} = (\int |f(z)|^p dz)^{1/p}(\int |g(y)|^q dy)^{1/q} \leq ||f||_{p}||g||_{q}$

b)Define $f_{t}(x)=f(x+t)\frac{}{}$ , $h_{t}(x)=h(x+t)\frac{}{}$ .

We have

$|h_{t}(x) - h(x)| = |\int[f_t(x-y)-f(x-y)]g(y)dy| \leq \int|f_t(x-y)-f(x-y)| |g(y)| dy$

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−	<math>\|h_{t}(x) - h(x)\| = \|\int[f_t(x-y)-f(x-y)]g(y)dy \|</math>	+	<math>\|h_{t}(x) - h(x)\| = \|\int[f_t(x-y)-f(x-y)]g(y)dy\| \leq \int\|f_t(x-y)-f(x-y)\| \|g(y)\| dy</math>