Physics:Liquid rope coil effect
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Short description: Fluid mechanics phenomenon
The liquid rope coil effect or liquid rope coiling is a fluid mechanics phenomenon characterized by the steadily rotating helical structure formed when pouring a thin stream of viscous fluid from a sufficient height onto a surface, resulting from a buckling instability in which the initially vertical fluid stream becomes unstable to bending deformation under axial compressive stress.[1]
The rope can change shape in three ways: stretching, bending, and twisting. Each deformation faces resistance in the form of viscous forces. The rope's shape is influenced by the balance between these forces and the fluid's inertia. Surface tension, usually significant in fluid dynamics, plays only a minor role.[2]
Further reading
- Barnes, George; Woodcock, Richard (1958-04-01). "Liquid Rope-Coil Effect". American Journal of Physics. 26 (4): 205–209. doi:10.1119/1.1996110. ISSN 0002-9505.
References
- ↑ Ribe, Neil M.; Habibi, Mehdi; Bonn, Daniel (2012-01-21). "Liquid Rope Coiling" (in en). Annual Review of Fluid Mechanics 44 (1): 249–266. doi:10.1146/annurev-fluid-120710-101244. ISSN 0066-4189. https://www.annualreviews.org/doi/10.1146/annurev-fluid-120710-101244.
- ↑ Ribe, Mehdi Habibi, Daniel Bonn, Neil M. (2014-02-01). "Dribbling Fluids Coil around Like Ropes, Producing Elegant Shapes That Physicists Still Don't Fully Understand" (in en). https://www.scientificamerican.com/article/dribbling-fluids-coil-around-like-ropes/.
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