4.4 - Wave Characteristics

4.4.1
1. Wave pulse- a single, instant crest?
2. Continous wave- A wave of constant amplitude and frequency; the wave goes up and down forever (unless damped!)
4.4.3
1. Transverse wave- A wave in which the direction of disturbance is perpendicular to the direction of travel
  1. Example: Wave in a string
2. Longitudinal wave- A wave in which the direction of disturbance is parallel to the direction of travel
  1. Example: Wave in a spring
4.4.2
1. Progressive waves transfer energy.
4.4.4
1. Wavefront- a line joining all point in a wave that are in phase
2. Ray- lines drawn to show the direction of the wave, perpendicular to the wavefront
4.4.5
1. Crest- maximum positive displacement from equilibrium position. Top of the wave
2. Trough- maximum negative displacment from equilibrium position. Bottom of the wave
3. Compression- pushing together of a longitudinal wave, increased frequency, decreased wavelength
4. Rarefaction- spreading out of the longitudinal wave, decreasing frequency, increased wavelength
4.4.6
1. Wavelength- distance between two consecutive points of a wave that are in phase
2. Wave speed- distance travelled by the wave profile per unit time
3. Intensity- Power transferred by a wave per unit area
44.8
1. If frequency is f, the time taken for a wave to pass one cycle is 1/f.
  1. Velocity = distance over time
    1. The distance moved in one cycle is one wavelength
      1. So the velocity of a wave is the wavelength divided by 1/f, which is equal to the wavelength times the frequency
4.4.9
1. All electromagnetic waves thravel with the same wave speed in free space!

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4.4 - Wave Characteristics

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