浸没在磁场中的载流导线的拉普拉斯力的起源

IF 0.5 4区教育学 Q4 EDUCATION, SCIENTIFIC DISCIPLINES

Physics Teacher Pub Date : 2023-04-01 DOI:10.1119/5.0096757

M. Finazzi, M. Zani

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引用次数: 0

摘要

作用在带电流的导线上的宏观力(称为拉普拉斯力)置于磁场中，是洛伦兹力作用在导线内每个电荷上的结果。通常，拉普拉斯力被解释为由运动电荷与外部磁场相互作用产生的磁力。然而，这种解释过于简单，没有考虑到电线内部各种电荷群之间的所有相互作用。这就导致了一系列可能阻碍理解这一主题的矛盾。例如，磁力不能做功，而在磁场中的载流导线则代表了理解电动机工作原理的范例。在这里，我们将用本科生可以理解的简单论证来说明拉普拉斯力是静电力，从而解决这个和其他矛盾。

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Origin of the Laplace Force Applied to a Current-Carrying Wire Immersed in a Magnetic Field

The macroscopic force (called the Laplace force) acting on a wire carrying an electric current placed in a magnetic field is a consequence of the Lorentz force acting on each charge inside the wire. Typically, the Laplace force is explained as a magnetic force resulting from the interaction of the moving charges with the external magnetic field. Such an interpretation, however, is too simplistic and does not take into account all the interactions between the various charge populations inside the wire. This leads to a series of paradoxes that might hinder the understanding of this subject. For instance, a magnetic force cannot do any work, while a current-carrying wire in a magnetic field represents the paradigm to understand the working principle of an electric motor. Here, we will solve this and other inconsistencies by showing, with simple arguments comprehensible to undergraduate students, that the Laplace force is instead an electrostatic force.

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来源期刊

Physics Teacher PHYSICS, MULTIDISCIPLINARY-

CiteScore

1.10

自引率

22.20%

发文量

期刊介绍： TPT publishes peer-reviewed papers on the teaching of introductory physics and on topics such as contemporary physics, applied physics, and the history of physics. Dedicated to strengthening the teaching of introductory physics at all levels, including secondary schools colleges and universities, TPT provides peer-reviewed content and materials to be used in classrooms and instructional laboratories.