Authors: Rona Geffen, Amira K. F. Val Baker, Daniela Gentile, Paul Oomen.

Abstract: Nonlinear standing waves known as Faraday waves are formed in vibrating liquids enclosed by a container. In an effort to further our understanding of the relation between frequency and wave propagation within spatial boundaries we present a taxonomy to classify the variety of the observed resonant phenomena. This taxonomy includes some new definitions and suggests a unified language for describing wave propagation phenomena. We investigated the observed resonant phenomena and complex nonlinear dynamics utilising the Cymascope instrument, which works by transposing sound periodicities to water molecule periodicities.

Disciplines: Fluid Dynamics, Physics, Physical Sciences and Mathematics, Statistical, Nonlinear, and Soft Matter Physics

Keywords: cymascope, cymatics, Faraday waves, pattern, morphology, resonant phenomena, taxonomy, vibrational modes

Citations:

APA: Geffen, R., Val Baker, A., Gentile, D., & Oomen, P. (2023, September 17). A Taxonomy of Sound-Induced Faraday Wave Phenomena. https://doi.org/10.31219/osf.io/hvcqx

MLA: Geffen, Rona, et al. “A Taxonomy of Sound-induced Faraday Wave Phenomena.” OSF Preprints, 17 Sept. 2023. Web.

Chicago: Geffen, Rona, Amira Val Baker, Daniela Gentile, and Paul Oomen. 2023. “A Taxonomy of Sound-induced Faraday Wave Phenomena.” OSF Preprints. September 17. doi:10.31219/osf.io/hvcqx.

IEEE: [1] R. Geffen, A. Val Baker, D. Gentile and P. Oomen, “A Taxonomy of Sound-Induced Faraday Wave Phenomena”, 17-Sep-2023. [Online]. Available: osf.io/hvcqx.

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