Physics of the String Shooter
- Autores: Karl C. Mamola
- Localización: The Physics Teacher, ISSN 0031-921X, Vol. 61, Nº. 5, 2023, págs. 328-330
- Idioma: inglés
- Texto completo no disponible (Saber más ...)
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Resumen
The string shooter is an intriguing device that can be used to demonstrate a number of important physics concepts. It uses a pair of rotating wheels to continuously propel a closed loop of string at constant speed (see Fig. 1). Remarkably, the loop quickly reaches a stable shape, remaining suspended in the air. This surprising behavior may be viewed in a number of YouTube videos.1 Several models of the device are available commercially,2,3 at modest cost, and homemade versions are not difficult to construct.1 Advanced-level discussions of the underlying physics have recently appeared in the scientific literature.4–6 Fortunately, the fundamentals of those analyses can be cast into a form that is accessible to students of introductory-level physics. That is the aim of this paper. Conceptually, the device’s behavior can be explained by considering the forces that act on the string (interestingly, air drag plays a key role) and using the conditions for translational and rotational equilibrium. A more complete analysis, using Newton’s second law, allows the shape of a stationary loop, lying in a vertical plane, to be predicted with remarkable accuracy. The method requires only a minimal amount of calculus.
