PHY238Y Lecture 9 - PowerPoint PPT Presentation

About This Presentation
Title:

PHY238Y Lecture 9

Description:

References: Haliday, Resnick, Walker: Fundamentals of Physics, ... Car horn (6 m distance) 100. Shotgun blast. 120-130. Pain threshold. 160. Ear drum rupture ... – PowerPoint PPT presentation

Number of Views:21
Avg rating:3.0/5.0
Slides: 9
Provided by: Sand352
Category:
Tags: phy238y | lecture

less

Transcript and Presenter's Notes

Title: PHY238Y Lecture 9


1
PHY238YLecture 9
  • Physics of Sound (continued from Lecture 8)
  • Physics of hearing (I)
  • References Haliday, Resnick, Walker
    Fundamentals of Physics, 6th ed., Wiley 2003, Ch.
    18 (18.1 18.3, 18.5)
  • Hallett et al. Physics for the life sciences,
    4th ed., Ch.2 (2.1 2.5)
  • Thanks to dr. R. Nave for the permission to use
    some of the pictures from Hyper Physics
    http//hyperphysics.phy-astr.gsu.edu

2
PHY238YLecture 9 (slide from lecture 8)
  • Traveling sound waves
  • Displacement and pressure variations

3
PHY238YLecture 9 slide from lecture 8
  • Sound intensity is
  • Power/unit area
  • or time rate of energy transfer/unit area
  • Many sound intensity measurements are made
    relative to a standard threshold of hearing
    intensity I0,
  • The most common approach to sound intensity
    measurement is to measure the sound level on the
    decibel scale
  • The factor of 10 multiplying the logarithm makes
    it decibels instead of Bels, and is included
    because 1 decibel is the just noticeable
    difference (JND) in sound intensity for the
    normal human ear

4
PHY238YLecture 9
  • The threshold of hearing
  • The measured threshold of hearing curve shows
    that the sound intensity required to be heard is
    quite different for different frequencies.
  • The standard threshold of hearing at 1000 Hz is
    nominally taken to be 0 dB (it actually is 4 dB)

5
PHY238YLecture 9
Intensity level (dB)
Ear drum rupture 160
Pain threshold 120-130
Shotgun blast 100
Car horn (6 m distance) 90
City street 75
Typical room 40
Open country 10
Threshold of hearing 0
  • Threshold of pain is 120 130 dB
  • The dynamic range of human hearing extends from
    zero dB to the threshold of pain.
  • Example problem 18-2 p. 404 from
    Halliday/Resnick/Walker

6
PHY238YLecture 9
  • The audible sound a pressure wave with frequency
    between 20 Hz and 20,000 Hz and with an intensity
    above the standard threshold of hearing
  • Frequency 20 Hz - 20,000 Hz (corresponds with
    pitch)
  • Wavelength (at 20oC in air) 0.0172m 17.2 m
  • Intensity 10-12 - 10 W/m2 (0 to 130 dB)
  • Pressure 2 x 10-5 - 60 N/m2 (2 x 10-10 - .0006
    atm)
  • Sounds may be generally characterized by
  • Pitch (frequency)
  • Loudness (is NOT simply the intensity level)
  • Quality (timbre determined by the harmonic
    content of the sound)

7
PHY238YLecture 9
  • Variation of intensity with distance the inverse
    square law

8
PHY238YLecture 9
  • Inverse square law plot
Write a Comment
User Comments (0)
About PowerShow.com