Analytical Solutions of (2+time Fractional Order) Dimensional Physical Models, Using Modified Decomposition Method
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Date
2020
Journal Title
Journal ISSN
Volume Title
Publisher
Mdpi
Open Access Color
GOLD
Green Open Access
No
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No
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Top 10%
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Top 10%
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Top 10%
Abstract
In this article, a new analytical technique based on an innovative transformation is used to solve (2+time fractional-order) dimensional physical models. The proposed method is the hybrid methodology of Shehu transformation along with Adomian decomposition method. The series form solution is obtained by using the suggested method which provides the desired rate of convergence. Some numerical examples are solved by using the proposed method. The solutions of the targeted problems are represented by graphs which have confirmed closed contact between the exact and obtained solutions of the problems. Based on the novelty and straightforward implementation of the method, it is considered to be one of the best analytical techniques to solve linear and non-linear fractional partial differential equations.
Description
Khan, Hassan/0000-0001-6417-1181; Arif, Muhammad/0000-0003-1484-7643; Kumam, Poom/0000-0002-5463-4581
Keywords
Shehu Transformation, Adomian Decomposition, Analytical Solution, Caputo Derivatives, (2+Time Fractional-Order) Dimensional Physical Models, shehu transformation, Technology, QH301-705.5, T, Physics, QC1-999, Shehu transformation, Engineering (General). Civil engineering (General), (2+time fractional-order) dimensional physical models, caputo derivatives, analytical solution, Chemistry, Adomian decomposition, Caputo derivatives, adomian decomposition, TA1-2040, Biology (General), QD1-999
Fields of Science
02 engineering and technology, 01 natural sciences, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering
Citation
Khan, H...et al. (2020). ,"Analytical Solutions of (2+Time Fractional Order) Dimensional Physical Models, Using Modified Decomposition Method",Applied Sciences (Switzerland), Vol. 10. No. 1.
WoS Q
Q2
Scopus Q
Q2
OpenCitations Citation Count
32
Source
Applied Sciences
Volume
10
Issue
1
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CrossRef : 34
Scopus : 36
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41
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4
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