Abstract

A series solution has been obtained for the mutual acoustic impedance between two identical, circular disks vibrating in an infinite plane. The problem was formulated in terms of Bouwkamp's method of integrating over real and complex angles the square of the directional characteristic (relative sound pressure at a large, fixed distance) to yield the total radiation impedance. Integrals involved here are similar to a type previously evaluated by Stenzel and may be expressed in terms of a double series containing Bessel functions of integral and half-integral order. Numerical values of the mutual acoustic impedance obtained by this method for two rigid disks are in good agreement with values obtained by Klapman by direct integration of the pressure at the surfaces of the disks. The acoustic self-impedance and mutual impedance may also be calculated by the same methods for a more general type of circular disk having a prescribed radially-symmetric velocity distribution.

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