AMApplied Mathematics2152-7385Scientific Research Publishing10.4236/am.2014.510144AM-46525ArticlesCOMPUTER SCIENCE & COMMUNICATIONSENGINEERINGPHYSICS & MATHEMATICSNew Exact Traveling Wave Solutions for Some Coupled BBM EquationsYeZhao1*QianXu2Department of Basic Courses, Beijing Union University, Beijing, ChinaDepartment of Mathematics and Physics, Beijing Institute of Petrochemical Technology, Beijing, China* E-mail:wzhaoye2002@tom.com(YZ);220520140510150815156 March 20146 April 2014 13 April 2014© Copyright 2014 by authors and Scientific Research Publishing Inc. 2014This work is licensed under the Creative Commons Attribution International License (CC BY). http://creativecommons.org/licenses/by/4.0/

The present paper deals with results of explicit traveling wave solutions for some coupled BBM equations. By detailed computation and using the (G '/G)-expansion method, many traveling wave solutions are given. These traveling waves are in the form of hyperbolic functions, the trigonometric functions and the rational functions, which show the reliability and efficiency of the used method.

Traveling Waves (<i>G</i> '/<i>G</i>)-Expansion Method Coupled BBM Equation
1. Introduction

The study of the traveling wave solutions for nonlinear PDEs plays an important role in the study of nonlinear physical phenomena. Therefore, finding explicit solutions of physics equations is an important and interesting subject. In this paper, we discuss the exact traveling wave solutions for the following nonlinear evolution equations which can be used to describe small-amplitude long waves on the surface of water in a channel.

Some previous works on the existence and orbital stability of bell-shaped solitary waves with zero and nonzero asymptotic value have been obtained in   . Our interest in the present work is to seek many new

solutions for the coupled Equations (1). The method we used here is -expansion method which is

proposed by Wang et al. in  . This method assumed that the traveling wave solutions can be expressed by a

polynomial in, where satisfies the second-order ordinary differential equation

. The solutions obtained are expressed by hyperbolic functions, the trigonometric functions and the rational functions. We note that the solutions obtained in this paper extend the existence results in   . Until now this method is widely used by many authors  - , and exact solutions for a variety

of nonlinear equations are obtained. Especially, Akbar, Norhashidah and Zayed  proposed the extended - expansion method in which the solutions are presented in the form. Recently, Taha,

Noorani and Hashim  apply this method to provide closed-form traveling wave solutions of the generalized thin film equations and stand thin film equation, in which the related balance numbers are not the usual positive integers.

Since every nonlinear equation has its own physically significant rich structure, still much work has to be done. In this paper, we propose some new exact traveling wave solutions for Equations (1), and which stresses

its power of -expansion method in handling nonlinear equations.

2. Exact Solutions for Equations (1)

Substituting the solution into (1), where and represents the

wave speed, we obtain

Integrating the equations and the integration constants are chosen as zero, it can be converted to the ODEs

Next, we apply the -expansion method to solve Equations (3). Firstly, considering the homogeneous

balance between the highest order derivative and the non-linear term, we suppose the solutions of (3) can be written in the form

where and satisfies the second order linear ODE

and are real constants. Using the general solutions of ODE (5), it is easy to obtain

By Euqations (4) and (5) we derive

Substituting (4) (7) and (8) into (3), collecting all terms with the same powers of and setting each

coefficient to zero, we get two sets of algebraic equations for, and.

Solving the above algebraic equations yields eight groups of values of unknowns.

1. (9)

2. (10)

3. (11)

4. (12)

5. (13)

6. (14)

7. (15)

8. (16)

Substituting (9)-(16) into (5), using the expression (6), three types of traveling wave solutions of (1) are given as follows.

Case a. When,

Case b. When,

Case c. When,

Remark If or, the waves obtained in the form of (17)-(24) are just the waves given in   .

Acknowledgements

Research is supported by Science Foundation of the Education Commission of Beijing (No. KM201210017008, No. KZ201310028030), NSF of Beijing (1132003) and Youth foundation of Beijing Institute of Petrochemical Technology (No. N10-04).

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