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Some New Newton’s Type Integral Inequalities for Co-Ordinated Convex Functions in Quantum Calculus

Miguel José Vivas Cortez, Muhammad Aamir Ali, Artion Kashuri, Ifra Bashir Sial, Zhiyue Zhang

2020Symmetry68 citationsDOIOpen Access PDF

Abstract

Some recent results have been found treating the famous Simpson’s rule in connection with the convexity property of functions and those called generalized convex. The purpose of this article is to address Newton-type integral inequalities by associating with them certain criteria of quantum calculus and the convexity of the functions of various variables. In this article, by using the concept of recently defined q1q2 -derivatives and integrals, some of Newton’s type inequalities for co-ordinated convex functions are revealed. We also employ the limits of q1,q2→1− in new results, and attain some new inequalities of Newton’s type for co-ordinated convex functions through ordinary integral. Finally, we provide a thorough application of the newly obtained key outcomes, these new consequences can be useful in the integral approximation study for symmetrical functions, or with some kind of symmetry.

Topics & Concepts

MathematicsConvexityConvex functionType (biology)Pure mathematicsRegular polygonCalculus (dental)InequalityApplied mathematicsMathematical analysisGeometryDentistryFinancial economicsMedicineEconomicsBiologyEcologyMathematical Inequalities and ApplicationsFunctional Equations Stability ResultsIterative Methods for Nonlinear Equations