Efficient Jacobi-Gauss Collocation Method for Solving Initial Value Problems of Bratu Type
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Date
2013
Journal Title
Journal ISSN
Volume Title
Publisher
Pleiades Publishing inc
Open Access Color
Green Open Access
No
OpenAIRE Downloads
OpenAIRE Views
Publicly Funded
No
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Impulse
Average
Influence
Top 10%
Popularity
Top 10%
Abstract
In this paper, we propose the shifted Jacobi-Gauss collocation spectral method for solving initial value problems of Bratu type, which is widely applicable in fuel ignition of the combustion theory and heat transfer. The spatial approximation is based on shifted Jacobi polynomials J(n)((alpha, beta))(x) with alpha, beta is an element of (-1, infinity), x is an element of [0, 1] and n the polynomial degree. The shifted Jacobi-Gauss points are used as collocation nodes. Illustrative examples have been discussed to demonstrate the validity and applicability of the proposed technique. Comparing the numerical results of the proposed method with some well-known results show that the method is efficient and gives excellent numerical results.
Description
Doha, Eid/0000-0002-7781-6871; Hafez, Ramy/0000-0001-9533-3171
Keywords
Bratu-Type Equations, Second-Order Initial Value Problems, Collocation Method, Jacobi-Gauss Quadrature, Shifted Jacobi Polynomials, numerical collocation method, Combustion, Jacobi-Gauss quadrature, numerical results, fuel ignition, heat transfer, Heat and mass transfer, heat flow, Spectral, collocation and related (meshless) methods applied to problems in thermodynamics and heat transfer, Nonlinear parabolic equations, shifted Jacobi polynomials, initial value problems, combustion theory, differential equation of the second order of Bratu type, Spectral, collocation and related methods for initial value and initial-boundary value problems involving PDEs
Fields of Science
0103 physical sciences, 0101 mathematics, 01 natural sciences
Citation
WoS Q
Q3
Scopus Q
Q3
OpenCitations Citation Count
14
Source
Computational Mathematics and Mathematical Physics
Volume
53
Issue
9
Start Page
1292
End Page
1302
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Citations
CrossRef : 5
Scopus : 18
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Mendeley Readers : 7
SCOPUS™ Citations
18
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Web of Science™ Citations
19
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Page Views
2
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