Sound radiation quantities arising from a resilient circular radiator (without former Sec. VII, and with new order for references)

Power series expansions in ka are derived for the pressure at the edge of a radiator, the reaction force on the radiator, and the total radiated power arising from a harmonically excited, resilient, flat, circular radiator of radius a in an infinite baffle. The velocity profiles on the radiator are either Stenzel functions (1− (σ/a)) with σ the radial coordinate on the radiator, or linear combinations of Zernike functions Pn(2(σ/a) 2 − 1) with Pn the Legendre polynomial of degree n. Both sets of functions give rise, via King’s integral for the pressure, to integrals for the quantities of interest involving the product of two Bessel functions. These integrals have a power series expansion and allow an expression in terms of Bessel functions of the first kind and Struve functions. Consequently, many of the results in [Piston radiator: Some extensions of the theory, J. Acoust. Soc. Am. 65(3), 1979] are generalized and treated in a unified manner. A foreseen application is for loudspeakers. The relation between the radiated power in the near-field on one hand and in the far-field on the other is highlighted.