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An Introduction to Waves

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Title: An Introduction to Waves


1
An Introduction to Waves
  • 3U Physics

2
What is a wave?
  • A wave is a disturbance which carries energy from
    one location to another.

3
What is a wave?
  • A wave is a disturbance which carries energy from
    one location to another.
  • The material the disturbance travels through is
    the ?
  • The movement of the disturbance is referred to as
    ?

4
What is a wave?
  • A wave is a disturbance which carries energy from
    one location to another.
  • The material the disturbance travels through is
    the medium.
  • The movement of the disturbance is referred to as
    ?

5
What is a wave?
  • A wave is a disturbance which carries energy from
    one location to another.
  • The material the disturbance travels through is
    the medium.
  • The movement of the disturbance is referred to as
    propagation.

6
2 Types of Waves
  • A longitudinal wave is a wave in which the
    particles of the medium move in a direction
    parallel to the direction of propagation.

7
2 Types of Waves
  • A longitudinal wave is a wave in which the
    particles of the medium move in a direction
    parallel to the direction of propagation.

8
2 Types of Waves
  • A longitudinal wave is also called a pressure
    wave or a sound wave.

9
2 Types of Waves
  • A longitudinal wave is also called a pressure
    wave or a sound wave.
  • The regions of increased pressure/density are
    called ?.
  • The regions of decreased pressure/density are
    called ?.

10
2 Types of Waves
  • A longitudinal wave is also called a pressure
    wave or a sound wave.
  • The regions of increased pressure/density are
    called compressions.
  • The regions of decreased pressure/density are
    called ?.

11
2 Types of Waves
  • A longitudinal wave is also called a pressure
    wave or a sound wave.
  • The regions of increased pressure/density are
    called compressions.
  • The regions of decreased pressure/density are
    called rarefactions.

12
2 Types of Waves
  • A transverse wave is a wave in which the
    particles of the medium move in a direction
    perpendicular to the direction of propagation.
  • Although sound waves are not transverse waves, we
    often represent them as transverse waves because
    transverse waves are easier to draw.

13
2 Types of Waves
  • The vertical axis represents not displacement but
    pressure.

14
Snapshot of a Transverse Wave
  • The dashed line represents the equilibrium
    position of the particles.

15
Snapshot of a Transverse Wave
  • The positions of maximum displacement are
    referred to as crests (positive displacement) and
    troughs (negative).
  • The maximum displacement is the amplitude.

16
Snapshot of a Transverse Wave
  • The positions of maximum displacement are
    referred to as crests (positive displacement) and
    troughs (negative).
  • The maximum displacement is the amplitude.
  • Amplitude Energy

17
Snapshot of a Transverse Wave
  • The distance between one crest and the next crest
    (or one trough and the next trough) is the

18
Snapshot of a Transverse Wave
  • The distance between one crest and the next crest
    (or one trough and the next trough) is the
    wavelength, represented by

19
Snapshot of a Transverse Wave
  • The distance between one crest and the next crest
    (or one trough and the next trough) is the
    wavelength, represented by l.

20
Snapshot of a Transverse Wave
  • The time it takes one complete wavelength to pass
    a single point is the

21
Snapshot of a Transverse Wave
  • The time it takes one complete wavelength to pass
    a single point is the period, represented by

22
Snapshot of a Transverse Wave
  • The time it takes one complete wavelength to pass
    a single point is the period, represented by T.

23
Snapshot of a Transverse Wave
  • The time it takes one complete wavelength to pass
    a single point is the period, represented by T.

24
Snapshot of a Transverse Wave
  • The number of complete wavelengths that pass a
    single point in one second is the frequency,
    represented by f.

25
Frequency
  • Frequency is measured in units of 1/s or s-1
  • or Hertz (Hz).

I do not think that the wireless waves I have
discovered will have any practical application.
26
Wave Speed
  • The speed of a wave is therefore

27
Wave Speed
  • The speed of a wave is therefore

28
Wave Speed
  • The speed of a wave is therefore

29
Wave Speed
  • The speed of a wave is therefore
  • The speed of a sound wave in air at room
    temperature (20oC) is 344 m/s.

30
Sound Wave Example
  • Calculate the wavelength of the sound wave
    produced by a 125 Hz tuning fork in air at 20oC.

31
Sound Wave Example
  • Calculate the wavelength of the sound wave
    produced by a 125 Hz tuning fork in air at 20oC.

32
Sound Wave Example
  • Calculate the wavelength of the sound wave
    produced by a 125 Hz tuning fork in air at 20oC.

33
More Practice
  • Inquiry Activity Slinky Waves
  • Homework An Introduction to Waves
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