A generalized expansion method for the loaded Burgers equation Introduction



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A generalized - expansion method for the loaded Burgers equation
Introduction
In this paper, the solutions of the loaded modified Burgers equation, one of the most significant integrally nonlinear differential equations, are explored. Inthe literature [1,2,3,4,5],loaded diffential equationsare typically called equations containing in the coefficients or in the right-hand side any functionals of the solution, in particular the values of the solution or its derivatives on manifolds of lower dimension. This type of equations wereexplored in works of N.N. Nazarov and N.N. Kochin. However, they did not use the term “loaded equation”. At first, the term has been used in works of A.M. Nakhushev, where the most general definition of a loaded equation is given and various loaded equations are classified in detail, for instance, loaded differential, integral, integro-differential, functional equations etc., and numerous applications are described.
Nowadays, various methods exist to solve nonlinear differentialequations.Forinstance, Hirota direct method [6], the inverse scattering problem for the Dirac operator that studied in the works of V. E. Zakharov, A. B. Shabat [7], I. S. Frolov [8], L. A. Takhtajyan, L. D. Faddeev [9] and M. Wadati[10] and the binary Darboux transformations [11,12]. Alternatively, the - expansion method [13,14,15,16,17,18,19,20,21,22] is also effective in finding traveling wave solutionsof nonlinear evolution equations.
In this article, the solutions of the loaded Burgers equation are studied by usage of - expansion method.
Let’s consider the following loaded Burgers equation
, (1)
where is an unknown function, , , - is the given real continuous function.
Description of the generalized -expansion method
Let us be given a nonlinear partial differential equation in the form below
(2)
with two independent variables and . is a unknown function, is a polynomial in and its partial derivatives in which the highest order derivatives and nonlinear terms are involved. Now we give the main steps of the -expansion method [23] :
Step 1. We look for the in the travelling form:
, , (3)
where is parameterand is a continuous function dependent on . We reduce equation (2) to the following nonlinear ordinary differential equation:
, (4)
where is a polynomial of and itsall derivatives , , … .
Step 2. We assume that the solution of equation (4) has the form:
, (5)
where satisfies the following second order ordinary differential equation
, (6)
where , and , , are constants that can be determined later, provided .
Step 3.We determine the integer number by balancing the nonlinear terms of the highest order and the partial product of the highest order of (4).
Step 4.Substitute (5) along with (6) into (4) andcollect all terms with the same order of , the left-hand side of (4) is converted into a polynomialin . Then, set each coefficient of this polynomial to zero to derive a set of over-determined partial differential equations for and .
Step 5.Substituting the values and as well as the solutions of equation (6) into (5) we have the exact solutions of equation (2).

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