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Possible Duplicate:
Evaluate the partial derivatives of the following function:

The function $f:\mathbb R^2 \to \mathbb R$, defined as: $\left\{\begin{align*}&\frac{x^5y}{x^4+y^2}&&(x,y) \neq 0\\&0&&(x,y)=(0,0)\end{align*}\right.$ Using the limit definition I get:

$f_x(0,0) = \frac{(0+h)^2 (0)}{h(0+h)^4+(0)} - \frac{(0)^5(0)}{h(0)^4+h(0)^2}$

for both $f_x$ and $f_y$, I get $\frac00$ terms for the last term. I know that the answer to both is $0$, but how do I deal with the $\frac00$ term (I can't seem to get rid of it). Is this allowed?

Thanks for any insight!

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    @Siminore - I was just confused with the 0/0 term I was getting, but realised the function is defined as 0, at (0,0).2012-06-07

2 Answers 2

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For $h\ne 0$ you should have

$\frac{f(0+h,0)-f(0,0)}h=\frac{f(h,0)-f(0,0)}h=\frac{h^5\cdot0}{h(h^4+0^2)}-0=\frac0{h^5}=0\;.$

As a function of $h$ this is the constant $0$, so its limit as $h\to 0$ is $0$.

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By definition: $ \frac{\partial f}{\partial x}(0,0)=\lim_{t \to 0} \frac{f(0+t,0)-f(0,0)}{t} = 0 $ since $f(t,0)=0$ for every $t \in \mathbb{R}$.