Dynamical behavior of rational difference equation $x_{n+1}=\dfrac{x_{n-13}}{\pm1\pm x_{n-1}x_{n-3}x_{n-5}x_{n-7}x_{n-9} x_{n-11}x_{n-13}}$
UDC 517.9 Discrete-time systems are sometimes used to explain natural phenomena encountered in nonlinear sciences. We study the periodicity, boundedness, oscillation, stability, and some exact solutions of nonlinear difference equations. Exact solutions are obtained by usin...
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| Datum: | 2024 |
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| Hauptverfasser: | , , |
| Format: | Artikel |
| Sprache: | Englisch |
| Veröffentlicht: |
Institute of Mathematics, NAS of Ukraine
2024
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| Online Zugang: | https://umj.imath.kiev.ua/index.php/umj/article/view/7548 |
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| Назва журналу: | Ukrains’kyi Matematychnyi Zhurnal |
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Ukrains’kyi Matematychnyi Zhurnal| Zusammenfassung: | UDC 517.9
Discrete-time systems are sometimes used to explain natural phenomena encountered in nonlinear sciences. We study the periodicity, boundedness, oscillation, stability, and some exact solutions of nonlinear difference equations. Exact solutions are obtained by using the standard iteration method. Some well-known theorems are used to test the stability of the equilibrium points. Some numerical examples are also provided to confirm the validity of the theoretical results. The numerical component is implemented with the Wolfram Mathematica. The presented method  may be simply applied to other rational recursive issues.
In this paper, we explore the dynamics of adhering to rational difference formula \begin{equation*}x_{n+1}=\frac{x_{n-13}}{\pm1\pm x_{n-1}x_{n-3}x_{n-5}x_{n-7}x_{n-9} x_{n-11}x_{n-13}},\end{equation*} where the initials are arbitrary nonzero real numbers. |
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| DOI: | 10.3842/umzh.v76i7.7548 |