Lecture 9: Mechanical Waves: wavelength, frequency, speed


Readings: Textbook pages 487-491

Mechanical Waves

  • Wave is a periodic disturbance in space and time that has ability to propagate.

  • Mechanical wave is a propagating disturbance in position of elements of some substance, a medium

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Different type of waves

  • Longitudinal wave - motion of particles is parallel to the direction of wave propagation

    Notice: particles move back and forth, without any net displacement, but crests travel. Wave motion does not transport matter over any significant distance ! But it does transport energy
  • Transverse waves - motion of the particles are transverse to the direction of wave propagation
    Notice, waves propagate with specific velocity, which seems determined only by the properties of the medium.
  • Some waves are complex. For example in ocean surface waves water elements move in circles - combination of longitudinal and transverse motion.
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Periodic Wave: wave length, frequency, amplitude and speed

Let us look at a very useful applet in our textbook.
  • In Periodic wave each particle experience simple harmonic oscillation, but the phase of oscillation is shifted from place to place.
  • Amplitude A : largest disturbance of a particle, height of crests
  • Wave length λ: distance between crests (or between troughs)
  • Freguency f : frequency of oscillation of a particle (same for all of them). ω = 2 π f
  • wave speed v : speed of displacement of the crests.

We observed that:

  • Speed of simple periodic wave does not depend on frequency, wavelength or amplitude
  • Longer the wavelength, lower the frequency matter particles oscillate with
  • Shorter the wavelength, higher the frequency, indeed
λ × f = v
(the crest moves exactly the distance of the wavelength in time that takes a particle to perform one full oscillation. Hence, v = λ / T )
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