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WAVES

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WAVES What is a wave? We ve all seen waves in a lake or ocean before, but these are just one type of wave. A wave can be defined as A disturbance traveling ... – PowerPoint PPT presentation

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Title: WAVES


1
WAVES
2
What is a wave?
  • Weve all seen waves in a lake or ocean before,
    but these are just one type of wave. A wave can
    be defined as
  • A disturbance traveling through a medium by
    which energy is transferred from one particle of
    the medium to another without causing any
    permanent displacement of the medium itself.

3
Key points about waves
  • Energy is what is moving along the wave.
  • Matter is not being transported along the wave,
    just energy.
  • There are many kinds of waves depending on the
    medium and the motion of the wave.

4
Important Terms
  • Medium the matter through which the wave is
    traveling.
  • Propagation The continuation of a wave
    throughout a medium.
  • Pulse An individual disturbance created in the
    medium. (Part of a wave)

5
Types of waves
  • All waves can be classified as one of two types
    depending on whether or not the wave requires a
    medium to travel through.

6
Types of waves
  • Mechanical Waves Require a medium to
    propagate.
  • (examples water waves, sound, vibrations on a
    string, earthquakes).

7
Types of waves
  • Electromagnetic Waves- Do NOT require a medium.
    Can travel through a vacuum.
  • (examples visible light, microwaves, radio,
    ultraviolet, infrared, x-rays)

8
Types of waves
  • Waves can also be classified based on the
    motion of the medium that the wave is traveling
    through.

9
Transverse Waves
  • Matter is displaced perpendicularly to the motion
    of the wave.

10
Transverse Waves
  • Notice that the particles of this material are
    all moving up and down while the wave is moving
    horizontally.

11
Transverse Waves
12
Transverse Waves
  • Crest Highest displacement of a wave.
  • Trough Lowest displacement of a wave.

13
Transverse Waves
  • Amplitude (A) The displacement of a wave at its
    crest or trough.
  • The greater the amplitude, the greater the energy
    of the wave.

14
Transverse Waves
15
Transverse Waves
  • Wavelength (?) the distance from one crest to
    the next crest, or one trough to the next trough.

16
Wave Measurements
  • Frequency (f) How many waves go by a certain
    point each second. In other words, how
    frequently a wave goes by.
  • Frequency is measured in cycles per second
    otherwise known as Hertz (Hz).
  • 1 cycle/s 1 s-1 1 Hertz 1 Hz

17
Wave speed animation
18
Wave Measurements
  • Notice that as the frequency increases, so does
    the velocity of the wave.
  • The Velocity (V) of the wave is directly
    proportional to both the wavelength and the
    frequency.
  • V f ?
  • Since the units are m s-1, the unit of velocity
    is m/s.

19
Wave Measurements
  • Since frequency is how many waves per second, the
    opposite measurement must be how many seconds per
    wave. This is called the Period (T).
  • T 1 / f f 1 / T
  • Since the Period is a measure of time, the unit
    is in seconds (s).

20
Wave Measurements
  • Velocity can be now expressed as

V ?
f
1 / T
/ T
21
Longitudinal Waves
  • Longitudinal waves are similar to transverse
    waves, except the oscillations of the medium are
    parallel to the motion of the wave, not
    perpendicular.

22
Longitudinal Waves
  • Compression Area where the matter is
    compressed together. (Analogous to a wave crest)

Rarefaction Area where the matter is pulled
apart. (Analogous to the wave trough)
23
Longitudinal Waves
Focus on just one dot and follow it. What do you
notice?
  • The red line represents the disturbance that is
    creating the waves.

The particles appear to be traveling all the way
across the screen, but look closer.
24
Measuring Longitudinal Waves
  • Wavelength The distance between two consecutive
    compressions or two consecutive rarefactions.

25
Surface Waves
  • Surface waves are unique from transverse and
    longitudinal waves because they only exist on the
    surfaces of the medium they are moving through.
  • Examples water waves, earthquakes

26
Surface Waves
  • The motion of surface waves is a combination of
    transverse and longitudinal characteristics.

Focus on the movement of the two blue dots. In
what direction are they moving? How is their
motion different?
27
Assignment
  • Read pg. 381-384
  • Do Problems 15-21 on Pg. 386
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