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Research Journal of Applied Sciences, Engineering and Technology

Abstract


2012(Vol.4, Issue:22)

Article Information: A New Algorithm that Developed Finite Difference Method for Solving Laplace Equation for a Plate with Four Different Constant Temperature Boundary Conditions H. Ahmadi and M. Manteghian Corresponding Author: M. Manteghian Submitted: March 16, 2012 Accepted: April 13, 2012 Published: November 15, 2012
Abstract:
Solving Laplace equation Δ²T = 0 using analytical methods is difficult, so numerical methods are used. One of the numerical methods for solving Laplace equation is finite difference method. We know that knotting and writing finite difference method for a specific body, eventually will give rise to linear algebraic equations. In this study, a new algorithm use for develop finite difference method for solving Laplace equation. In this algorithm, the temperature of the nodes of a specific figure quickly will be evaluated using finite difference method and the number of equations would be reducing significantly. By this method, a new formula for solving Laplace equation for a plate with four different constant temperature boundary conditions (Dirichlet condition) derived. Key words: Finite difference, laplace equation, numerical methods, , , ,
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Cite this Reference: H. Ahmadi and M. Manteghian, . A New Algorithm that Developed Finite Difference Method for Solving Laplace Equation for a Plate with Four Different Constant Temperature Boundary Conditions. Research Journal of Applied Sciences, Engineering and Technology, (22): 4630-4635.

ISSN (Online): 2040-7467
ISSN (Print): 2040-7459

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