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Woodwind Instruments

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... mouthpiece and a woodwind mouthpiece alone p. 548 Woodwind tone holes are smaller than the bore of the instrument Clarinet, cut-off 1500 Hz, with jazz ... – PowerPoint PPT presentation

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Title: Woodwind Instruments


1
Woodwind Instruments
  • Chapter 12

2
Woodwind Topic Overview
  • Pipe-reed system
  • Tone holes
  • Resonances of cylinders and cones
  • Single- and double-reed instruments
  • In the flute, collaboration between air stream of
    player and air column in flute.

3
Pipe-Reed System
  • Pipe-reed systems are naturally a closed pipe,
    but bore shape can change this
  • Conical bores (oboe, saxophone) behave like open
    pipes.
  • Reed acts as a valve
  • Open at beginning of pulse
  • Closed when pulse returns
  • Open for next return, etc.

4
Reed Vibrations
  • Air inside column has a large mass compared to
    the reed.
  • Reed locks in to vibrating frequency of the
    column.
  • Possible to triple the frequency of the reed
    vibration through lip pressure alone, but usually
    this is done with a register key.

5
Modes of Oscillation
  • Period and Frequency

6
Tone Holes (closed)
  • Both open and closed tone holes affect a woodwind
    instrument.
  • Closed tone holes have an increased volume of
    air, slowing the speed of the wave traveling in
    the instrument.
  • Closed tone holes increase the acoustical length
    of an instrument, and lower its resonance
    frequencies slightly.

7
Tone Holes (Open)
  • Open tone holes change the acoustic length of the
    instrument.
  • The larger the hole, the more effective the
    shortening.
  • When the size of the opening matches the bore,
    the pipe effectively ends at that point.
  • Tone-hole lattice more than one open hole.
  • Acts as a filter.
  • Cutoff frequency of the lattice above,
    frequencies propagate through the openings
    below, reflected.

8
Conical Bores
  • Conical bores essentially have the same resonance
    frequencies as an open pipe.
  • Same impedance peaks as conical, but points of
    minimum pressure do not lay midway in between
    points of maximum pressure.

9
Register Holes
  • Leaking a little bit of air reduces the strength
    of a resonance, making it possible to vibrate in
    another mode.
  • Register keys perform this function.
  • Placement of key usually is optimal for one or
    two modes.
  • Tone holes can provide additional resonance
    keys.

10
Whistles
  • Flutes (whistles, recorders, etc.) make use a
    vibrating air stream (jet of air)
  • Input flow not controlled by feedback pressure
  • Input flow controlled by direction of standing
    waves in air column
  • Flow-controlled

11
Flute
  • Flow-controlled air stream collaborates with the
    air column to vibrate at frequencies where the
    air column has dips in its impedance curve.
  • Cylindrical pipe, open, has fundamental and all
    harmonics.

12
Resonance control
  • Player has control over blowing pressure, length
    of the air jet, and area of lip opening.
  • Moving lip forward decreases jet length.
  • Above, coupled with increased blowing pressure
    gets second mode of vibration.
  • Angle of blowing also has an effect.
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