For a complex polynnomial $\sum_0^n a_i z^i$ the sum of roots is readily given by the Viets's formula.However, after trying to find out the sum of moduli of roots in terms of the coefficients feel like it should not be algebraically computable in terms of coefficients.Then I tried to figure out some bounds for the mean of moduli.I realised that a there we can trivially compute a class of bound by replacing each each modulus by some any bound for roots like Cauch's bound .However, I could not think of some better way.I have the following questions:
Q.No1Is it possible to find some good bounds for the average of the moduli of roots of a complex polynomial with complex roots with known coefficients?
Q.No.2Now consider a random polynomial of degree $n$ with coefficients distributed as iid standard normal variates.How can we find the expectation of the mean of moduli of the roots ,especially for finite degree polynomials?a
Of the many things I was trying ,may the following is of some interest For any polynomial $\sum_0^n a_i z^i,$ we may note that $$\text{ |Product of roots| }=\left|\frac{a_0}{a_n} \right|$$ so if $z_{min}$ is the root min minimum modulus,then $$ |z_{min}| \geq \left(\left|\frac{a_0}{a_n} \right| \right)^{1/n} $$ so that $$ \frac{\sum_1^n |z_i|}{n} \geq \left(\left|\frac{a_0}{a_n} \right| \right)^{1/n} $$ I don't know ,however ,how good that bound is and whether we can find some good ones.I will be obliged for any help/lnks/suggestions