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I found something strange when I try to solve this equatiin of $x$:

$\int_0^t \frac{1}{xW(\frac{1}{xf(\tau)})}d\tau=c_0t$,

where $t$ and $c_0$ are constants. $f(\tau)$ is a known polynomial function. $W(z)$ is the Lambert W function, i.e. $z=W(z)e^{W(z)}$.

If I take the derivative of the equation on both sides, I can get some solution of $x$. However, the result seems wrong since it require for any $x\in (0,t)$, $\frac{1}{xW(\frac{1}{xf(\tau)})}=c_0$ holds. And this is not what I want.

In brief, I have the following two questions:

1, What is wrong with taking the derivative of the equation?

2, Is there any other way to solve $x$?

Thanks! 
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    Take $\int_0^t x ydy=t$ as an example. The solution can be derived as $x=\frac{2}{x}$. If I consider $x$ as $x(t)$ and take derivative on the equation as $x'(t)\frac{t^2}{2}+x(t)t=1$. Then I can get $x(t)=\frac{C_1}{t^2}+\frac{2}{t}$. The only difficult is to determine $C_1$.2012-11-07

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