Linked Videos

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Created by
Celeste

Cards (43)

  • A vibration is a repetitive or periodic motion back and forth that does not travel anywhere
  • A wave is a periodic motion or disturbance that travels (the disturbance travels, not the material itself)
  • A vibration example would be the guitar strings, a wave example would be the sound that travels from it
  • Vibration and waves have periodic motions or disturbances
  • Vibration does not propagate while waves do propagate
  • Vibrations can happen without creating a wave, while waves are usually caused by a vibration
  • Waves have a number of different properties that we can measure
  • The wavelength of a wave is the distance between the parts of the wave that form a repeating pattern
  • When the particles of a medium are displaced by a wave, their maximum displacement is called the amplitude of the wave
  • In a transverse wave, points of maximum and minimum amplitude are called crests and troughs
  • In a longitudinal wave, they are called compressions and rarefactions
  • The distance between any two troughs or peaks is one wavelength
  • A crest has maximum displacement, so it is displaced in the positive direction
  • A trough has minimum displacement, so it is displaced in the negative direction
  • The time it takes for a wave to complete one cycle is a period
  • During one period, the wavelength travels a distance of one wavelength
  • The frequency of the wave is how many wavelengths pass through a stationary point every second
  • Wavelengths measured in Hertz
  • The velocity of the wave, displacement over time
  • The intensity of a wave is the rate at which it carries energy
  • It is measured by finding the energy flow through a plane perpendicular to the wave's velocity
  • Matter cannot overlap but waves can
  • When two waves combine, they will exhibit superposition
  • Destructive interference, the resultant wave has lesser amplitude than the individual waves
  • Complete destructive interference, the resultant wave has zero amplitude
  • Aligned waves are known as in phase
  • Adding amplitudes of the same waves gives a resultant wave
  • Adding opposite waves will result in a resultant wave of zero
  • Opposite waves are out of phase
  • Added out of phase waves will result in complete destructive interference
  • Loose boundaries will reflect waves, while fixed boundaries will reflect and invert waves
  • When waves reach a small gap, the bending of waves is called diffraction
  • When a resultant wave has greater amplitude than the individual waves, this is called... constructive interference
  • When a resultant wave has lesser amplitude than the individual waves, this is called... destructive interference
  • When two waves meet in a medium, they pass through one another
  • Passing waves continue on their paths
  • During the period for which the waves overlap, their amplitudes add together
  • Two waves moving in a perpendicular directions collide, briefly interfering with each other, and then continue on their way. What properties of the waves have changed?

    No properties of the waves have changed
  • When two waves are overlapping, they are superimposed
  • If the two waves are in phase, they will cause constructive interference