In this paper, we approximate Lagrange multipliers to solve integro differential equations of mixed type those are linear first and second order. It is observed that use of approximate Lagrange multipliers reduces the iteration and give faster results as compare to other techniques. Numerical examples support this idea. Keywords Approximate Lagrange Multiplier, Variational Iteration Method, Mixed Type Integro-Differential Equations
This paper investigates the errors of the solutions as well as the shadowing property of a class of ...
In this paper we consider rough differential equations with affine boundary conditions. Using invari...
Published version of an article in the journal: Abstract and Applied Analysis. Also available from t...
In this paper, efficient modification of Adomain decomposition method is proposed to solve nonlinear...
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A method of lines approach to the numerical solution of nonlinear wave equations typified by the reg...
A novel family of numerical integration of closed Newton-Cotes quadrature rules is presented which u...
A new one-step block method with generalized three hybrid points for solving initial value problems ...
We consider a class of fuzzy linear systems (FLS) and demonstrate some of the existing methods using...
In this paper, convergence analysis of a finite difference method for the linear second order bounda...
In this paper, the iterative method, proposed by Gejji and Jafari in 2006, has been modified for sol...
In this paper we establish an interesting double integral involving the I-function of two variables ...
In this work we study the asymptotic behavior of solutions for a general linear second-order evoluti...
In this paper, 3-point Block Backward Differentiation Formulas (3BBDF) is used for the numerical sol...
This paper investigates the errors of the solutions as well as the shadowing property of a class of ...
In this paper we consider rough differential equations with affine boundary conditions. Using invari...
Published version of an article in the journal: Abstract and Applied Analysis. Also available from t...
In this paper, efficient modification of Adomain decomposition method is proposed to solve nonlinear...
In this paper we deal with the linear two variable functional equation ℎ_0(x,y)f_0(g_0(x,y))+⋅⋅⋅+ℎ...
We are concerned here with singular partial differential equations of fractional order (FSPDEs). The...
A method of lines approach to the numerical solution of nonlinear wave equations typified by the reg...
A novel family of numerical integration of closed Newton-Cotes quadrature rules is presented which u...
A new one-step block method with generalized three hybrid points for solving initial value problems ...
We consider a class of fuzzy linear systems (FLS) and demonstrate some of the existing methods using...
In this paper, convergence analysis of a finite difference method for the linear second order bounda...
In this paper, the iterative method, proposed by Gejji and Jafari in 2006, has been modified for sol...
In this paper we establish an interesting double integral involving the I-function of two variables ...
In this work we study the asymptotic behavior of solutions for a general linear second-order evoluti...
In this paper, 3-point Block Backward Differentiation Formulas (3BBDF) is used for the numerical sol...
This paper investigates the errors of the solutions as well as the shadowing property of a class of ...
In this paper we consider rough differential equations with affine boundary conditions. Using invari...
Published version of an article in the journal: Abstract and Applied Analysis. Also available from t...