分析带绞龙的受迫阻尼旋转摆振荡器的多尺度方法

IF 2.4 3区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY

Communications in Theoretical Physics Pub Date : 2024-05-01 DOI:10.1088/1572-9494/ad3192

Haifa A Alyousef, Alvaro H Salas, B M Alotaibi and S A El-Tantawy

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引用次数: 0

摘要

本研究报告了带有绞架和周期性激振力的广义旋转摆系统的解析解。多尺度法（MSM）被用于解决所提出的问题。研究详细讨论了几种类型的旋转摆振荡器。其中包括带绞龙的强制阻尼旋转摆振荡器、阻尼标准单摆振荡器和无绞龙的阻尼旋转摆振荡器。详细推导了所有上述情况的 MSM 一阶近似值。并用具体的数值示例说明了所得结果。一阶 MSM 近似值与四阶 Runge-Kutta (RK4) 数值近似值进行了比较。此外，与 RK4 方法获得的数值近似值相比，我们估算了通过 MSM 获得的一阶近似值的最大误差。此外，我们还对使用的方法（MSM）和 He-MSM 得出的结果进行了比较分析，以确定它们各自的精度水平。所提出的方法可用于分析许多强非线性振荡方程。

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Multiple scales method for analyzing a forced damped rotational pendulum oscillator with gallows

This study reports the analytical solution for a generalized rotational pendulum system with gallows and periodic excited forces. The multiple scales method (MSM) is applied to solve the proposed problem. Several types of rotational pendulum oscillators are studied and talked about in detail. These include the forced damped rotating pendulum oscillator with gallows, the damped standard simple pendulum oscillator, and the damped rotating pendulum oscillator without gallows. The MSM first-order approximations for all the cases mentioned are derived in detail. The obtained results are illustrated with concrete numerical examples. The first-order MSM approximations are compared to the fourth-order Runge–Kutta (RK4) numerical approximations. Additionally, the maximum error is estimated for the first-order approximations obtained through the MSM, compared to the numerical approximations obtained by the RK4 method. Furthermore, we conducted a comparative analysis of the outcomes obtained by the used method (MSM) and He-MSM to ascertain their respective levels of precision. The proposed method can be applied to analyze many strong nonlinear oscillatory equations.

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来源期刊

Communications in Theoretical Physics 物理-物理：综合

CiteScore

5.20

自引率

3.20%

发文量

6110

审稿时长

4.2 months

期刊介绍： Communications in Theoretical Physics is devoted to reporting important new developments in the area of theoretical physics. Papers cover the fields of: mathematical physics quantum physics and quantum information particle physics and quantum field theory nuclear physics gravitation theory, astrophysics and cosmology atomic, molecular, optics (AMO) and plasma physics, chemical physics statistical physics, soft matter and biophysics condensed matter theory others Certain new interdisciplinary subjects are also incorporated.