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Let $f \in C^\infty(\mathbb R)$. Define the semi-norm $$ \|f\|_{a,b}=\sup_{x \in \mathbb R} |x^af^{(b)}(x)| $$ where $a,b \in \mathbb Z_+$, and $f^{(b)}$ is the $b$-th derivative of $f$.
Show $\|\cdot\|_{a,b}$ is a norm on the Schwartz space $S(\mathbb R)$.

I don't see how to proove this direction of the nonnegativity requirement for the norm $$ \|f\|_{a,b} =0 \text{ implies } f=0. $$

If one of the derivative is zero, how can I infer that the original function is also zero?

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1 Answer 1

up vote 3 down vote accepted

Let $f$ such that $\lVert f\rVert_{a,b}=0$. Then for each $x\neq 0$, we have $f^{(b)}(x)=0$, and as $f^{(b)}$ is continuous, $f^{(b)}(x)=0$ for all $x\in\Bbb R$. This implies that $f$ is a polynomial. As $f$ is assumed to be in the Schwartz space, $f$ vanishes at infinity, hence $f\equiv 0$.

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Very good proof. Thank you. –  Nicolas Essis-Breton Nov 2 '12 at 18:04
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