Lagrange's method applied to a Slinky

IF 1.1 Q3 EDUCATION, SCIENTIFIC DISCIPLINES International Journal of Mechanical Engineering Education Pub Date : 2023-07-30 DOI:10.1177/03064190231191251
P. Cumber
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引用次数: 0

Abstract

The Lagrange method is applied to two dynamic models of a Slinky, one based on point masses and linear springs and a second where the Slinky is represented as a sequence of half hoops connected by torsion springs. For the first time, the use of Lagrange's method applied to a Slinky has produced a multi-body dynamic model that can potentially with minor modification reproduce all the interesting behaviour Slinkies are well known for; descending stairs, pseudo levitation, transmission of longitudinal and transverse waves. In this paper, the models are derived and a limited exploration of the two dynamic models’ behaviour is considered. For unforced oscillation, the point mass model and torsion spring model produce a similar amplitude and frequency. When considering forced oscillations, the point mass model has a very different spectrum of natural frequencies than the torsion spring model. The torsion spring model is considered for different forcing conditions.
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拉格朗日的方法应用于弹簧狗
拉格朗日方法应用于Slinky的两个动力学模型,一个基于点质量和线性弹簧,另一个Slinky表示为由扭转弹簧连接的半环序列。首次将拉格朗日方法应用于Slinky产生了一个多体动力学模型,该模型可以在稍作修改的情况下再现Slinky众所周知的所有有趣行为;下行楼梯、伪悬浮、纵波和横波的传输。本文推导了这两个模型,并考虑了对这两个动态模型行为的有限探索。对于非受迫振荡,点质量模型和扭簧模型产生相似的振幅和频率。当考虑强迫振荡时,点质量模型与扭簧模型具有非常不同的固有频率谱。考虑了不同受力条件下的扭簧模型。
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来源期刊
CiteScore
3.00
自引率
28.60%
发文量
13
期刊介绍: The International Journal of Mechanical Engineering Education is aimed at teachers and trainers of mechanical engineering students in higher education and focuses on the discussion of the principles and practices of training professional, technical and mechanical engineers and those in related fields. It encourages articles about new experimental methods, and laboratory techniques, and includes book reviews and highlights of recent articles in this field.
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