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Suppose $w$ is a complex number, and set $c=\max(1,|w|)$. If $F$ and $G$ are non-zero polynomials in one indeterminate with coefficients in $\mathbb{C}$, and $\deg(F)=d$ and \deg(G)=d', with $|F|,|G|\geq 1$. If $R$ is their resultant, then why is |R|\leq c^{d+d'}[|F(w)|+|G(w)|]|F|^{d'}|G|^d(d+d')^{d+d'}?

Here, I'm using $|F|$ to be the maximum of the absolute values of the coefficients of $F$. Thanks for any suggestions on approaching this.

The Source of this problem is Serge Lang's Algebra, exercise 16 of Chapter IV.

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    Must be a different edition. Chapter IV of my copy of Lang's Algebra is Homology, and the only exercise in it is the notorious one, "Take any book on homological algebra, and prove all the theorems without looking at the proofs given in that book." Found it! In my edition, it's Chapter V, exercise 13.2011-11-25

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