Minnaert resonance
The Minnaert resonance[1][2][3] is a phenomenon associated with a gas bubble pulsating at its natural frequency in a liquid, neglecting the effects of surface tension and viscous attenuation. It is the frequency of the sound made by a drop of water from a tap falling in water underneath, trapping a bubble of air as it falls. The natural frequency of the entrapped air bubble in the water is given by
where is the radius of the bubble, is the polytropic coefficient, is the ambient pressure, and is the density of water. This formula can also be used to find the natural frequency of a bubble cloud with as the radius of the cloud and the difference between the density of water and the bulk density of the cloud. For a single bubble in water at standard pressure , this equation reduces to , where is the natural frequency of the bubble. The Minnaert formula assumes an ideal gas, however it can be easily modified to account for deviations from real gas behavior by accounting for the gas compressibility factor,[4] or the gas bulk modulus
and being respectively the density and the speed of sound in the bubble.
References
- Minnaert, M. (1933), "On musical air-bubbles and the sound of running water", Philosophical Magazine, 16 (104): 235–248, doi:10.1080/14786443309462277, S2CID 120320419
- Marcel Minnaert: The Nature of Light and Color in the Open Air, Dover, 1954
- (in original Dutch) Marcel Minnaert: 55. The sound of water, in Physics of the Free Field, part 2 Sound, heat, electricity, (Het geruis van water, in Natuurkunde van 't vrije veld, deel 2 Geluid, warmte, elektriciteit), Thieme Zutphen, 1939 and later editions, p. 68-70
- Greene, Chad A.; Wilson, Preston S. (2012). "Laboratory investigation of a passive acoustic method for measurement of underwater gas seep ebullition". The Journal of the Acoustical Society of America. 131 (1): EL61–EL66. Bibcode:2012ASAJ..131L..61G. doi:10.1121/1.3670590. ISSN 0001-4966. PMID 22280731.
External links
- Low-Frequency Resonant Scattering of Bubble Clouds by Paul A. Hwang and William J. Teague, 2000, Journal of Atmospheric and Oceanic Technology, vol. 17, no. 6, pp. 847–853. journals.ametsoc.org