The stability of a biadditive functional equation via a new direct method
Abstract
Addressing stability in functional equations is a critical task with broad implications across mathematics and its applications. In this paper, we present a novel direct method for proving the stability of the following equation, eqnarray* f(x,y)=α f(f1(x,y))+β f(f2(x,y)) eqnarray* subjecting to certain constraints on the constants α and β, as well as the functions f1(x,y) and f2(x,y). We introduce the direct method to prove the stability of the following functional equation and inequality, eqnarray* \|f(x+y,z-w)+f(x-y,z+w)-2f(x,z)+2f(y,w)\| ≤ \|x\|p\|y\|p\|z\|p\|w\|p; eqnarray* eqnarray* split \;&\|f(x+y,z-w)+af(x-ya,z+w)-2f(x,z)+2f(y,w) \|\\ \;&≤ \| (f(x+y,z-w)+f(x-y,z+w)-2f(x,z)+2f(y,w))\|. split eqnarray* This technique efficiently confirms stability, outperforming traditional proof methods in simplicity and efficacy. The application of our direct approach to various equations solidifies its validity, ensuring stable behavior across different mathematical contexts.
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