instrument ! air ! listener - PowerPoint PPT Presentation

About This Presentation
Title:

instrument ! air ! listener

Description:

Title: PowerPoint Presentation Author: Diederich Last modified by: Adele Diederich Created Date: 1/31/2002 6:28:27 PM Document presentation format – PowerPoint PPT presentation

Number of Views:54
Avg rating:3.0/5.0
Slides: 20
Provided by: Die109
Category:

less

Transcript and Presenter's Notes

Title: instrument ! air ! listener


1
  • instrument ! air ! listener
  • source ! medium ! receptor
  • The source emits.
  • The medium transmits.
  • The receptor detects, registers, or, in general,
    is affected in some specific way.

2
Sound waves
  • Goldstein, pp. 331 339
  • CWE, pp. 182 187
  • Levine, pp. 332 338
  • Howard Angus, Chapter 1
  • Warren, pp. 1 5

3
Sound of a physical stimulus pressure changes in
the air
4
Sound waves
  • are longitudinal waves.
  • are alternations of rarefaction and compression
    of an elastic medium (such as water, air, or
    walls) in which they travel.
  • are created by rapid movement of a source in
    mechanical contact with this medium.
  • can be transmitted for great distances.
  • cannot pass through a vacuum.
  • The speed of sound varies according to the medium
    in which it travels.

5
(No Transcript)
6
  • Wavelength (?) distance from one peak of the
    wave to the next
  • Cycle the completion of a full sequence of air
    rarefaction and compression
  • Frequency (f) number of cycles a sound wave
    completes in one second
  • Hertz (Hz) unit (cycles per second) used to
    measure frequency of sound waves
  • ? v/f (v velocity (m s-1))
  • Pressure amplitude measure of the size of the
    variation in air pressure caused by a sound wave

7
  • Phase the particular point in the
    compression-rarefaction cycle of sound wave at
    one instant of time
  • Phase (in phase out of phase how much they are
    out of phase is expressed in terms of phase angle
    ?)

8
Pressure amplitude
  • Amount by which the wave causes the pressure to
    differ from the normal atmospheric pressure
    (which is 105 N/m2 newtons/meter2)
  • Maximum pressure variation the ear can tolerate
    (10 00Hz tone) 30 N/m2
  • Minimum pressure variation the ear can detect (10
    00Hz tone) 2 10-5 N/m2

9
Sound Pressure Level (SPL)
  • The decibel SPL value for a sound with pressure
  • LP 20 log (P/P0)
  • P sound pressure amplitude being measured
  • P0 210-5 N/m2
  • (logarithmic scale relative to some reference)

10
Relation between sound pressure and decibel
Pressure (p/p0)
dB SPL
1 0
10 20
100 40
1000 60
10 000 80
100 000 100
1 000 000 120
10 000 000 140
11
Sound pressure levels (intensity levels) of
various sound sources
12
Frequency
13
Piano keyboard, showing the frequencies
associated with each note and the ranges of
various other instruments
14
Complex sound waves produced by musical
instruments
15
Jean-Baptiste Joseph Baron de Fourier1768 - 1830
  • Fourier-analysis decomposing complex pattern
    into sine waves
  • Fourier-synthesis adding sine waves to create a
    complex pattern

16
(No Transcript)
17
Gradually adding higher frequency sine waves of
lower amplitude
Gradually adding higher frequency sine waves of
the same amplitude
18
Additive synthesis
  • Fundamental frequency (or first harmonic)
    starting frequency for a complex sound
  • Harmonics pure tones, each of which has a
    frequency that is a multiple of the fundamental

19
Fundamental or first harmonic
Frequency spectrum
frequency line's position amplitude line's
height
Second harmonic
Third harmonic
Write a Comment
User Comments (0)
About PowerShow.com