Acoustics of the clarinet

Bb clarinet

multiphonic
D#4 & C#6

Music Acoustics UNSW

index
E3 F3 F#3 G3 G#3 A3 A#3 B3
C4 C#4 D4 D#4 E4 F4 F#4 G4 G#4 A4 A#4 B4
C5 C#5 D5 D#5 E5 F5 F#5 G5 G#5 A5 A#5 B5
C6 C#6 D6 D#6 E6 F6 F#6 G6 G#6 A6 A#6 B6
C7 C#7

multiphonics    
C4 & A#5 D#4 & C#6 F#4, G#5, D6 & G6
D4 & B5 E4 & C5 G#4, C5, A#5 & E6
D#4, D#5 & B5 F4 & G#5  
D#4, F5, C#6 & E#6 F4 & A5  

Impedance

Fingering
a key depressed
a key not depressed
a hole covered
a hole uncovered
a part of the mechanism that is not normally touched
Details in fingering legend.

Acoustic schematic
a closed tone hole
an open tone hole

Non-specialist introduction to acoustic impedance
Non-specialist introduction to clarinet acoustics

Notes are the written pitch.
Frequencies are the sounding frequency, for Bb clarinet.
Unless otherwise stated, the impedance spectrum is for a Bb clarinet.


Impedance spectrum of a Bb clarinet measured using fingering for the multiphonic D#4 with C#6.

Here, the D#4 may be considered as produced by a variant of the E4 fingering, with cross fingering to make it flatter. The C#6 is produced by the third peak in the impedance spectrum, which one could consider as the third resonance of a modified fingering for A3, with the open key acting as a register hole.

A two-note multiphonic requires the superposition of two standing waves (whose frequencies, which are not in harmonic ratios, determine the pitches). Usually, this is achieved by opening one (usually small) tone hole in a series of closed tone holes. The wave travelling downstream from the reed is partially reflected at the open tone hole, which makes one standing wave. The rest of the energy in the incident wave continues down the bore, until it reaches the first in a series of open tone holes. Here it is reflected to make the second standing wave.

For this situation to apply, the frequencies of the notes have to be such that the effect of the inertia of the air in the open tone hole is large enough to allow some transmission past the hole, but small enough to produce some reflection. For low-pitched notes, the tone hole is usually small.

Sound


Sound spectrum of a Bb clarinet played using fingering for the multiphonic D#4 with C#6.
For more explanation, see Introduction to clarinet acoustics

Sound Clip

You can hear the multiphonic D#4 with C#6 played.


Fingering legend
How were these results obtained?

Contact: Joe Wolfe / J.Wolfe@unsw.edu.au
phone 61-2-9385-4954 (UT +10, +11 Oct-Mar)
© 1997-2006 Music Acoustics UNSW