利用能量耗散率和简单技巧模拟弱阻尼谐振子的振幅和能量衰减

arXiv - PHYS - Classical Physics Pub Date : 2024-06-26 DOI:arxiv-2406.18488

Karlo Lelas, Robert Pezer

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引用次数: 0

摘要

我们展示了如何推导出弱阻尼谐振子振幅的指数下降和能量衰减的优秀近似值。这是通过对无阻尼谐振子的基本理解以及阻尼力的功率和能量耗散率之间的联系实现的。诀窍在于将具有相同初始能量的两对特定初始条件对应的能量耗散率相加。这样，我们就得到了一个一阶微分方程，从中我们可以快速确定随时间变化的振幅以及与每对初始条件相对应的能量。将我们的模型结果与精确解和能量进行比较，结果非常吻合。我们所使用的物理概念和数学工具是一年级本科生所熟悉的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Modeling the amplitude and energy decay of a weakly damped harmonic oscillator using the energy dissipation rate and a simple trick

We demonstrate how to derive the exponential decrease of amplitude and an excellent approximation of the energy decay of a weakly damped harmonic oscillator. This is achieved using a basic understanding of the undamped harmonic oscillator and the connection between the damping force's power and the energy dissipation rate. The trick is to add the energy dissipation rates corresponding to two specific pairs of initial conditions with the same initial energy. In this way, we obtain a first-order differential equation from which we quickly determine the time-dependent amplitude and the energies corresponding to each pair of considered initial conditions. Comparing the results of our model to the exact solutions and energies yielded an excellent agreement. The physical concepts and mathematical tools we utilize are familiar to first-year undergraduates.

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arXiv - PHYS - Classical Physics

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