• Title/Summary/Keyword: Trapezoid and midpoint inequalities

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SOME NEW ČEBYŠEV TYPE INEQUALITIES

  • Zafar, Fiza;Mir, Nazir Ahmad;Rafiq, Arif
    • Bulletin of the Korean Mathematical Society
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    • v.47 no.2
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    • pp.221-229
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    • 2010
  • Some new $\check{C}$eby$\check{s}$ev type inequalities have been developed by working on functions whose first derivatives are absolutely continuous and the second derivatives belong to the usual Lebesgue space $L_{\infty}[a,\;b]$. A unified treatment of the special cases is also given.

INEQUALITIES FOR THE RIEMANN-STIELTJES INTEGRAL OF PRODUCT INTEGRATORS WITH APPLICATIONS

  • Dragomir, Silvestru Sever
    • Journal of the Korean Mathematical Society
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    • v.51 no.4
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    • pp.791-815
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    • 2014
  • We show amongst other that if $f,g:[a,b]{\rightarrow}\mathbb{C}$ are two functions of bounded variation and such that the Riemann-Stieltjes integral $\int_a^bf(t)dg(t)$ exists, then for any continuous functions $h:[a,b]{\rightarrow}\mathbb{C}$, the Riemann-Stieltjes integral $\int_{a}^{b}h(t)d(f(t)g(t))$ exists and $${\int}_a^bh(t)d(f(t)g(t))={\int}_a^bh(t)f(t)d(g(t))+{\int}_a^bh(t)g(t)d(f(t))$$. Using this identity we then provide sharp upper bounds for the quantity $$\|\int_a^bh(t)d(f(t)g(t))\|$$ and apply them for trapezoid and Ostrowski type inequalities. Some applications for continuous functions of selfadjoint operators on complex Hilbert spaces are given as well.

NEW EXTENSIONS OF THE HERMITE-HADAMARD INEQUALITIES BASED ON 𝜓-HILFER FRACTIONAL INTEGRALS

  • Huseyin Budak;Umut Bas;Hasan Kara;Mohammad Esmael Samei
    • The Pure and Applied Mathematics
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    • v.31 no.3
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    • pp.311-324
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    • 2024
  • This article presents the above and below bounds for Midpoint and Trapezoid types inequalities for 𝜓-Hilfer fractional integrals with the assistance of the functions whose second derivatives are bounded. We also possess some extensions and generalizations of Hermite-Hadamard inequalities via 𝜓-Hilfer fractional integrals with the aid of the functions that have the conditions that will said.