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Sound
physics
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The Helmholtz resonator

An important type of resonator with very different acoustic characteristics is the Helmholtz resonator, named after the German physicist Hermann von Helmholtz. Essentially a hollow sphere with a short, small-diameter neck, a Helmholtz resonator has a single isolated resonant frequency and no other resonances below about 10 times that frequency. The resonant frequency (f) of a classical Helmholtz resonator, shown in Figure 8, is determined by its volume (V) and by the length (L) and area (A) of its neck:

Equation.

where S is the speed of sound in air. As with the tubes discussed above, the value of the length of the neck should be given as the effective length, which depends on its radius.

The isolated resonance of a Helmholtz resonator made it useful for the study of musical tones in the mid-19th century, before electronic analyzers had been invented. When a resonator is held near the source of a sound, the air in it will begin to resonate if the tone being analyzed has a spectral component at the frequency of the resonator. By listening carefully to the tone of a musical instrument with such a resonator, it is possible to identify the spectral components of a complex sound wave such as those generated by musical instruments.

The air cavity of a string instrument, such as the violin or guitar, functions acoustically as a Helmholtz-type resonator, reinforcing frequencies near the bottom of the instrument’s range and thereby giving the tone of the instrument more strength in its low range. The acoustic band-pass filter shown in Figure 3D uses a Helmholtz resonator to absorb a band of frequencies from the sound wave passing down an air duct and then reemitting them with the opposite phase, so that they will interfere destructively with the incoming wave and cause it to attenuate. The large jugs used in a jug band also function as Helmholtz resonators, resonating at a single low frequency when air is blown across their openings. Tuning forks are often mounted on boxes, because the air cavity in a box oscillates like a Helmholtz resonator and provides coupling between the tuning fork and the outside air.

Rectangular boxes

An air cavity in the shape of a rectangular box has a sequence of nonharmonic resonances. In such a case the walls are nodal points, and there are standing waves between two parallel walls and mixed standing waves involving several walls. The frequencies of such standing waves are given by the relation

Equation.

where x, y, and z are the dimensions of the box and Nx, Ny, and Nz are any integers. In the case where Ny = Nz = 0 and Nx = 1, the frequency is

Equation.

corresponding to a half-wavelength the length of the box. This type of resonance is found inside a loudspeaker box, and it must be avoided when tuning a bass reflex speaker port. Such resonances are also readily observed in shower stalls and small rooms such as music practice rooms with parallel walls. Because of these resonances, practice rooms are often made with oblique walls.

Stretched membranes

In a two-dimensional system—for instance, a vibrating plate or a stretched membrane such as a drumhead—the resonant frequencies are not related by integral multiples; that is, their resonances or overtones are inharmonic. Most tuned percussion instruments fall into this category, which is one reason why a tune played on bells or timpani is sometimes more difficult to follow than a tune played on a violin or trumpet. Part of the design goal for tuned bar instruments is to make the shape such that two or more of the resonant frequencies line up like those of wind or string instruments, rendering the pitch clearer. Some, such as the marimba and xylophone, use tubular resonators tuned to the desired frequency of the bar in order to reinforce any overtones that are harmonics of the tube. The South Asian tabla achieves its relatively clear pitch by using a nonuniform, or weighted, drumhead.

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