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I found this exercise and I don't know where i do wrong: Let $a > e$ be a real number. Prove that the equation $a z^4 e^{−z} = 1$ has a single solution in $D(0, 1)$, which is real and positive.

Well, the equation is equivalent to finding the numer of zeros of the function $az^4-e^z$. In $|z|=1$ we should have $|e^z|<e<|az^4|$ so by Rouche's theorem the number of zeros it's the same as $az^4$ which is 4! (One is real positive since calculating the function in 0 and in 1 it gives a negative and a positive value.) So what is wrong with my proof?

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    your use of Rouche's theorem seems right but perhaps that the question is to prove that there is only one solution real and positive in $D(0,1)$ (so that others could exist in $D(0,1)$!).2012-04-22
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    If it was so, how could i say there's only that one?2012-04-22
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    Perhaps simply studying the real functions $ax^4$ and $e^x$ on $(0,1)$... Concerning the complex problem it requires the [Lambert-W function](http://en.wikipedia.org/wiki/Lambert_W_function) as solved for $a=3$ for example by [Alpha](http://www.wolframalpha.com/input/?i=solve+3*z%5E4%3De%5Ez).2012-04-22
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    In other words, forget about complex analysis and just use tools of intro calculus to study the equation.2012-04-23

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