@Article{ATA-36-2, author = {Dalal, Aseem and N., K., Govil}, title = {On Sharpening of a Theorem of Ankeny and Rivlin}, journal = {Analysis in Theory and Applications}, year = {2020}, volume = {36}, number = {2}, pages = {225--234}, abstract = {

Let $p(z)=\sum^n_{v=0}a_vz^v$ be a polynomial of degree $n$,
                          $M(p,R)=:\underset{|z|=R\geq 0}{\max}|p(z)|$ and $M(p,1)=:||p||$.
Then according to a well-known result of Ankeny and Rivlin [1], we have for $R\geq 1$, $$M(p,R)\leq (\frac{R^n+1}{2})||p||.$$This inequality has been sharpened by Govil [4], who proved that for $R\geq 1$, $$M(p,R)\leq (\frac{R^n+1}{2})||p||-\frac{n}{2}(\frac{||p||^2-4|a_n|^2}{||p||})\left\{\frac{(R-1||p||)}{||p||+2|a_n|}-ln(1+\frac{(R-1)||p||}{||p||+2|a_n|})\right\}.$$In this paper, we sharpen the above inequality of Govil [4], which in turn sharpens the inequality of Ankeny and Rivlin [1].

}, issn = {1573-8175}, doi = {https://doi.org/10.4208/ata.OA-2018-0001}, url = {https://global-sci.com/article/73808/on-sharpening-of-a-theorem-of-ankeny-and-rivlin} }