Acoustics of the clarinet

Bb clarinet

E3

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

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 E3.
To compare with the impedance spectrum for the A clarinet playing written E3 (same fingering), open a separate browser window.
To compare with the impedance spectrum for the A clarinet playing written F3 (same pitch), open a separate browser window.

This is the lowest note on this clarinet. All tone holes are closed, so the clarinet most closely resembles a cylindrical, closed pipe (For a detailed explanation see The clarinet as a closed pipe). As a result, the regular series of maxima (and minima) in Z(f) extends to high frequencies. The maxima (and minima) become weaker at high frequencies for several reasons: first, the loss of energy where the moving air is close to the walls is more important at high frequency. Second, the bell radiates high frequencies better than low, so there is less reflection of high frequencies and so weaker resonances. Third, the effect of the springiness of the reed is to reduce the impedance peaks at high frequencies (this is because the compliance of the reed is in parallel with the bore). This explains why softer reeds don't play the high notes as well. The first several maxima can be played. See also flutes and clarinets for a discussion of details of the impedance curve of a cylindrical tube.

To understand how the bell and the mouthpiece contribute to the shape of this curve, see frequency response and acoustic impedance of clarinets.

In the sound spectrum below, note that the first five odd harmonics are stronger than the even harmonics. The reed can produce both odd and even harmonics, but in the clarinet only the odd harmonics are supported by (line up with) the peaks in the impedance spectrum (above). At high frequencies, the sound harmonics don't often coincide with peaks of impedance, so the systematic difference between odd and even harmonics disappears.

Sound forte


Sound spectrum of a Bb clarinet played using fingering for E3 forte .
For more explanation, see Introduction to clarinet acoustics

Sound Clip forte

You can hear E3 forte played.

For this note (and also for F3, G4 and A6), we show spectra for different loudness or dynamic levels (f, mp and pp). Note that, as the player blows harder, the level of the fundamental actually becomes weaker. The main cause of a clarinet's note being louder is that more high harmonics appear and that the high harmonics already present become stronger. These extra and stronger harmonics change the timbre of the sound, making it brighter or less mellow: listen to the sound files. They are also very effective at making it louder, because our ears are most sensitive in the range 1-4 kHz. (See What is a decibel?) Note also that the base line for all spectra is a broad band 'noise' containing all frequencies. This is due to the turbulence of air passing through the reed opening, and it is an important part of the characteristic clarinet sound, particularly at the beginning of a note.

For a discussion of how the reed motion produces different timbre and dynamic levels, see Playing softly and loudly.


Sound mezzopiano


Sound spectrum of a Bb clarinet played using fingering for E3 mezzopiano.

Sound Clip mezzopiano

You can hear E3 mezzopiano played on a Bb clarinet.


Sound pianissimo


Sound spectrum of a Bb clarinet played using fingering for E3 pianissimo.

Sound Clip pianissimo

You can hear E3 pianissimo played on a Bb clarinet.


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