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Polynomial Integral Transform for Solving Differential Equations

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Abstract (2. Language): 
In this paper, we propose Polynomial Integral Transform for solving differential equations. Unlike the Laplace Transform and others, the Polynomial Integral Transform solves differential equations with a little computational effort as well as time. In addition, the Polynomial Integral Transform entails a polynomial function as its kernel, which ensures the rapid convergence of the solution to a differential equation. Thus, this method transforms a linear differential equation into an algebraic equation, from which the solution is obtained. Moreover, we show the applicabilities of the Polynomial Integral Transform and its properties.
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REFERENCES

References: 

[1] S. K. Q. Al-Omari. Notes for Hartley transforms of generalized functions. Italian Journal
of pure and applied mathematics, 28:21–30, 2011.
[2] S. K. Q. Al-Omari. On the applications of natural transforms. International journal of
pure and applied mathematics, 85(4):729–744, 2013.
[3] S. K. Q. Al-Omari and A. Kilicman. On diffraction Fresnel transform for Boehmians.
Abstract and applied analysis, 2011, 2011.
[4] M. A. Asiru. Further properties of the Sumudu transform and its applications. Inter-
national journal of mathematical education in science and technology, 301(2):441–449,
2011.
[5] A. Atangana and A. Kilicman. The use of Sumudu transform for solving certain nonlinear
fractional heat-like equations. abstract and applied analysis, 2013, 2013.
[6] F. B. M. Belgacem and A. A. Karaballi. Sumudu transform fundamental properties investigations
and applications. Journal of applied mathematics and stochastic analysis, 2006,
2006.
[7] F. B. M. Belgacem and R. Silambarasan. Advances in the natural transform. volume
1493. AIP conference proceedings, 2012.
[8] W. E. Boyce and R. C. Diprima. Elementary differential equations and boundary value
problems. John Wiley and Sons, Inc„ UK, 2001.
[9] V. B. L. Chaurasia. Application of Sumudu transform in Schödinger equation occurring
in quantum mechanics. Applied mathematical sciences,, 4(57):2843–2850, 2010.
[10] H. Eltayeb and A. Kilicman. On double sumudu transform and double laplace transform.
Malaysian journal of mathematical sciences, 4(1):17–30, 2010.
[11] S. Handibag and B. D. Karande. Laplace substitution method for solving partial differential
equations involving mixed partial derivatives. International journal of pure and
applied mathematics, 78(7):973–979, 2012.
[12] Z. H. Khan andW. A. Khan. Natural transform-properties and applications. NUST journal
of engineering sciences, 1(1):127–133, 2008.
[13] F. Mainardi and G. Pagnini. Mellin-barnes integrals for stable distributions and their
convolutions. Fractional calculus and applied mathematics: an international journal of
theory and applications, 11(4), 2008.
[14] J. J. Mohan and G. V. S. R. Deekshitulu. Solutions of fractional difference equations using
s-transforms. Malaya journal of matematik, 3(1):1–13, 2013.
[15] G. K. Watugala. Sumudu transform-a new integral transform to solve differential equations
and control engineering problems. Mathematical engineering in industry, 6(4):319–
329, 1993.

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