| 58268 |
Creator |
fa61b1cb4416d3531f327690f17d4f8b |
| 58268 |
Creator |
cb6caffe08d60373cf26747be2c0d78d |
| 58268 |
Creator |
ext-3c8ab1d32ac638b4361772b7ca1b49c9 |
| 58268 |
Date |
2018-10-24 |
| 58268 |
Is Part Of |
repository |
| 58268 |
abstract |
Most woodwind instruments in museums may not be played, because of the risk of damage.
However, if the acoustic impedance spectra (tube resonances) can be measured or calculated,
many conclusions may be drawn about, for example, pitch, timbre, intonation, utility
of alternative fingerings and effects of bore shrinkage.
Impedance measurement methods may sometimes be applied to instruments in museums,
but are only meaningful if the instrument is in good playing condition, free from
leaks. However, the overwhelming contribution to the acoustic properties of a woodwind
is made by the shape of its air column. If the bore shape and tone holes are measured
sufficiently accurately, we may compute the acoustic impedance of the instrument for
all fingerings using standard equations of linear acoustics.
This methodology has been thoroughly tested by applying it to a Heckel bass clarinet
in A (German system) from 1910. This working instrument has been kept continuously
in good playing condition but has seen relatively light use. Measurements were made
using a calibrated tape measure and (plastic) Vernier calipers, which minimized bore
damage. The results were compared with experimental measurement of acoustic impedances
using a BIAS system at the Open University. Impedance calculation software was written
in MatLab™ following the scheme of Plitnik and Strong , using the later developments
by Keefe , Cronin and Dalmont et al. For all fingerings the impedance peaks agreed
with the calculations, on average to better than 10 cents in frequency for the peak
forming the basis of the sounding note. This could be empirically corrected by an
end correction of 3 mm (on a 1350 mm instrument). The reed/embouchure impedance was
semi-empirically corrected by an end correction of 17 mm, which is consistent with
the theory and experiments of Dalmont et al.4 on soprano clarinets.
Playing tests were in good agreement. The playing frequencies agreed well with the
calculations using the above end corrections, both when the mouthpiece was fully pushed
in and when it was pulled out by 10.8 mm to correct overall intonation. The calculations
also correctly predicted the excellent tuning and timbre of the fork fingering for
written Bb2, the “patent C#” fingering for C#3 and the unsuitability of the fork fingering
for Eb2, which was about a quarter-tone sharp.
The ‘impedance mapping’ method of Jeltsch et al. has been further developed into
a powerful tool for summarizing the acoustical behavior of a complete instrument and
comparing it with other instruments. A new method of determining the cut-off phenomenon
in woodwind instruments, utilizing the higher resonances in the tube, has shown that
there is a cut-off band rather than a single frequency. In the case of the Heckel,
the Benade approximation gives a cut-off frequency of 1000 Hz, whereas there is actually
a range of 920 - 1320 Hz, dependent on the fingering.
These methods are being applied to the study of non-playable bass clarinets in museum
collections, in an attempt to elucidate musical differences between instruments of
different designs. |
| 58268 |
authorList |
authors |
| 58268 |
presentedAt |
ext-db75582bda010bdf508bb44b82031b66 |
| 58268 |
status |
peerReviewed |
| 58268 |
uri |
http://data.open.ac.uk/oro/document/726325 |
| 58268 |
uri |
http://data.open.ac.uk/oro/document/726742 |
| 58268 |
uri |
http://data.open.ac.uk/oro/document/726743 |
| 58268 |
uri |
http://data.open.ac.uk/oro/document/726744 |
| 58268 |
uri |
http://data.open.ac.uk/oro/document/726745 |
| 58268 |
uri |
http://data.open.ac.uk/oro/document/726746 |
| 58268 |
uri |
http://data.open.ac.uk/oro/document/731912 |
| 58268 |
type |
AcademicArticle |
| 58268 |
type |
Article |
| 58268 |
label |
Bowen, Keith; Buys, Kurijn and Sharp, David (2018). On The Accuracy Of Calculation
Of The Impedance Spectra Of Woodwind Instruments. In: Measurements and modelling
of musical instruments and performance spaces, 22 Oct 2018, St Cecilia's Hall, Edinburgh.
|
| 58268 |
label |
Bowen, Keith; Buys, Kurijn and Sharp, David (2018). On The Accuracy Of Calculation
Of The Impedance Spectra Of Woodwind Instruments. In: Measurements and modelling
of musical instruments and performance spaces, 22 Oct 2018, St Cecilia's Hall, Edinburgh. |
| 58268 |
Title |
On The Accuracy Of Calculation Of The Impedance Spectra Of Woodwind Instruments |
| 58268 |
in dataset |
oro |