Playback devices having waveguides

What is claimed is: 1. A playback device comprising: an electroacoustic transducer; an acoustic waveguide in fluid communication with the transducer; and a housing delimiting an opening of the waveguide, the opening extending around an axis passing through the transducer and having a radial distance from the axis that varies with an azimuthal angle about the axis, wherein an acoustic path length within the waveguide, between the transducer and the opening, is substantially constant and independent of azimuthal angle about the axis. 2. The playback device of claim 1 , wherein a projection of the opening onto a plane perpendicular to the axis extends farther in a first direction in the plane than in a second direction in the plane, the second direction being perpendicular to the first direction. 3. The playback device of claim 1 , wherein a portion of the waveguide has a substantially serpentine cross-section in a plane coplanar with the axis. 4. The playback device of claim 2 , wherein a portion of the waveguide has: a first substantially serpentine cross-section in a first plane coplanar with the axis; and a second substantially serpentine cross-section in a second plane coplanar with the axis, wherein a section of the first substantially serpentine cross-section has a greater curvature than a corresponding section of the second substantially serpentine cross-section. 5. The playback device of claim 1 , wherein a portion of the waveguide extending toward the opening is perpendicular to the axis. 6. The playback device of claim 1 , wherein the electroacoustic transducer comprises a diaphragm configured to be displaced in a direction substantially aligned with the axis in response to a received electrical signal. 7. The playback device of claim 1 , wherein the opening has a dimension in a direction aligned with the axis that varies with azimuthal angle about the axis, thereby reducing a variation of intensity around the axis of acoustic waves generated by the transducer and emitted from the opening. 8. The playback device of claim 1 , wherein the waveguide is bounded on one side by an axial wall, the playback device further comprising: an absorber disposed between the axis and the axial wall and configured to attenuate acoustic waves within a predetermined frequency band, thereby reducing a variation of intensity around the axis of acoustic waves generated by the transducer and emitted from the opening within the predetermined frequency band. 9. A playback device comprising: an electroacoustic transducer; an acoustic waveguide in fluid communication with the transducer; a housing delimiting an opening of the waveguide, the opening extending around an axis passing through the transducer and having a radial distance from the axis that varies with an azimuthal angle about the axis, wherein the waveguide is bounded on one side by an axial wall; and an absorber disposed between the axis and the axial wall and configured to attenuate acoustic waves within a predetermined frequency band, thereby reducing a variation of intensity around the axis of acoustic waves generated by the transducer and emitted from the opening within the predetermined frequency band. 10. The playback device of claim 9 , wherein the absorber comprises a hollow tube resonator. 11. The playback device of claim 10 , wherein a cross-sectional area of the hollow tube resonator decreases with distance from an open end of the hollow tube resonator. 12. The playback device of claim 9 , wherein the transducer has a center portion substantially aligned with this axis, and wherein the predetermined frequency band includes a frequency corresponding to acoustic waves having a wavelength that is four times an acoustic path length between the center portion of the transducer and the axial wall. 13. The playback device of claim 9 , wherein the absorber is a first absorber, further comprising a plurality of absorbers disposed between the axis and the axial wall, each of the plurality of absorbers being configured to attenuate acoustic waves within a respective predetermined frequency band. 14. The playback device of claim 13 , wherein the plurality of absorbers are disposed substantially the same distance from the center portion of the transducer. 15. The playback device of claim 13 , wherein the plurality of absorbers are substantially evenly spaced about the center portion of the transducer. 16. The playback device of claim 13 , wherein: at least one of the plurality of absorbers is configured to attenuate acoustic waves within a first predetermined frequency band; and at least one of the plurality of absorbers is configured to attenuate acoustic waves within a second predetermined frequency band, the second predetermined frequency band being different from the first predetermined frequency band. 17. The playback device of claim 16 , wherein a range between a maximum attenuation frequency in the first predetermined frequency band and a maximum attenuation frequency in the second predetermined frequency band includes a target frequency. 18. The playback device of claim 17 , wherein the target frequency corresponds to acoustic waves having a wavelength that is four times an acoustic path length between the center portion of the transducer and the axial wall. 19. The playback device of claim 9 , wherein the opening has a dimension in a direction aligned with the axis that varies with azimuthal angle about the axis, thereby reducing a variation of intensity around the axis of acoustic waves generated by the transducer and emitted from the opening. 20. A playback device comprising: an electroacoustic transducer; an acoustic waveguide in fluid communication with the transducer; and a housing delimiting an opening of the waveguide, the opening extending around an axis passing through the transducer, wherein the opening has a dimension in a direction aligned with the axis that varies with an azimuthal angle about the axis, thereby reducing a variation of intensity around the axis of acoustic waves generated by the transducer and emitted from the opening.