Integrability Formulas. Part III
Bo Li, Na Ma (2010)
Formalized Mathematics
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In this article, we give several differentiation and integrability formulas of composite trigonometric function.
Bo Li, Na Ma (2010)
Formalized Mathematics
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In this article, we give several differentiation and integrability formulas of composite trigonometric function.
Bo Li, Yanping Zhuang, Yanhong Men, Xiquan Liang (2009)
Formalized Mathematics
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In this article, we give several differentiation and integrability formulas of special and composite functions including the trigonometric function, the hyperbolic function and the polynomial function [3].MML identifier: INTEGR11, version: 7.11.01 4.117.1046
Fuguo Ge, Bing Xie (2008)
Formalized Mathematics
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In this article, we prove a series of differentiation identities [2] involving the arctan and arccot functions and specific combinations of special functions including trigonometric and exponential functions.MML identifier: FDIFF 11, version: 7.10.01 4.111.1036
Xiquan Liang, Ling Tang, Xichun Jiang (2011)
Formalized Mathematics
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In this article, we give some important theorems of forward difference, backward difference, central difference and difference quotient and forward difference, backward difference, central difference and difference quotient formulas of some special functions.
Bo Li, Na Ma, Xiquan Liang (2010)
Formalized Mathematics
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In this article, we give several differentiation and integrability formulas of special and composite functions including trigonometric function, and polynomial function.
Fisher, Brian, Kiliçman, Adem (1995)
Commentationes Mathematicae Universitatis Carolinae
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Duma, Andrei, Stoka, Marius (2002)
Beiträge zur Algebra und Geometrie
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Shulaia, D. (2002)
Georgian Mathematical Journal
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Brian Fisher, Adem Kiliçman (1995)
Commentationes Mathematicae Universitatis Carolinae
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The commutative neutrix convolution product of the locally summable functions and is evaluated. Further similar commutative neutrix convolution products are evaluated and deduced.
Tsankov, Yulian (2010)
Fractional Calculus and Applied Analysis
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MSC 2010: 44A35, 35L20, 35J05, 35J25 In this paper are found explicit solutions of four nonlocal boundary value problems for Laplace, heat and wave equations, with Bitsadze-Samarskii constraints based on non-classical one-dimensional convolutions. In fact, each explicit solution may be considered as a way for effective summation of a solution in the form of nonharmonic Fourier sine-expansion. Each explicit solution, may be used for numerical calculation of the solutions too. ...