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$\sqrt{|xy|} = 1$

Attempting to find the derivative gives me $\frac12(xy)^{-1/2}\left(x\frac{dy}{dx} + y\right) = 0$

But I haven't figured out how to simplify this further. My teacher says that that's all I'll need to know, but I want to understand how the derivative of $\sqrt {xy} = 1$ is $-\frac{y}x$.

Edited to explain that I know the whole thing equals zero, but how do I solve for (dy/dx)?

Attempts to solve get me this far: enter image description here

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    Your subject has $\sqrt{xy}$ while the body of the question has $\sqrt{|xy|}$. Which do you mean?2012-10-19

3 Answers 3

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You need to take the derivative of the righthand side of $\sqrt{xy}=1$ as well: the derivative of the constant $1$ is $0$, so you get

$\frac12(xy)^{-1/2}\left(x\frac{dy}{dx} + y\right)=0\;.$

Now solve this equation for $\dfrac{dy}{dx}$.

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The question is somewhat unclear, but if $\sqrt{x y}=1$ then $xy=1$, hence $y=x^{-1}$ and $y'=-x^{-2}=-\frac yx=-y^2$.

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    I like Hagen's solution2012-10-19
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Since no one else has done it, let me expand on Michael Joyce's comment. Since

$\frac12(xy)^{-\frac12}(x\frac{dy}{dx}+y)=0$

then either

$(xy)^{-\frac12}=0 \text{ or } x\frac{dy}{dx}+y=0$

But if $(xy)^\frac12=1$, then $(xy)^{-\frac12}=1$. Therefore, it follows that

$x\frac{dy}{dx}+y=0,\frac{dy}{dx}=-\frac yx$