Solvability of a Three-Dimensional System of Nonlinear Difference Equations
Merve Kara
Abstract
In this paper, we solve the following three-dimensional system of difference equationsxn=yn−4zn−5yn−1(an+bnzn−2xn−3yn−4zn−5),yn=zn−4xn−5zn−1(αn+βnxn−2yn−3zn−4xn−5),zn=xn−4yn−5xn−1(An+Bnyn−2zn−3xn−4yn−5), n∈N0,xn=yn−4zn−5yn−1(an+bnzn−2xn−3yn−4zn−5),yn=zn−4xn−5zn−1(αn+βnxn−2yn−3zn−4xn−5),zn=xn−4yn−5xn−1(An+Bnyn−2zn−3xn−4yn−5), n∈N0,where the sequences (an)n∈N0(an)n∈N0, (bn)n∈N0(bn)n∈N0, (αn)n∈N0(αn)n∈N0, (βn)n∈N0(βn)n∈N0, (An)n∈N0(An)n∈N0, (Bn)n∈N0(Bn)n∈N0 and the initial values x−j,y−jx−j,y−j, j=¯¯¯¯¯¯¯¯1,5j=1,5¯, are real numbers. In addition, the constant coefficient of the mentioned system is solved in closed form. Finally, we also describe the forbidden set of solutions of the system of difference equations.
Topics & Concepts
MathematicsNonlinear systemConstant (computer programming)CombinatoricsPhysicsMathematical analysisQuantum mechanicsComputer scienceProgramming languageMathematical and Theoretical Epidemiology and Ecology ModelsNonlinear Differential Equations AnalysisAdvanced Differential Equations and Dynamical Systems