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11-3: PROPERTIES OF WAVES
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Wave Motion A wave is a disturbance created by a vibrating source.
Two types of waves Electromagnetic or Mechanical Electromagnetic waves can travel through space Mechanical waves require a material medium.
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As a wave propagates, particles in the medium vibrate about an equilibrium position.
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Wave Types Pulse - is a single non periodic disturbance.
Periodic wave - a wave whose source is undergoing some form of periodic motion.
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Transverse waves Particles vibrate at right angles to the direction of propagation. Crest – the highest point above the equilibrium position Trough – the lowest point below the equilibrium position Wavelength – the distance between two adjacent similar points of the wave, symbol =
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Longitudinal waves Particles vibrate parallel to the direction of wave motion. The crests of the wave corresponds to the compressed regions, and the trough corresponds to the stretch regions
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Graphs of Waves
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Frequency & Period The frequency of a wave is the number of crests that pass a point in a given time (usually in hertz). The period is the time required for the wave to travel one wavelength (two successive crests).
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Wave Speed The relationship between the frequency and wavelength of a wave is given by the wave equation: Energy carried by a wave depends on the amplitude at which the particles of the medium are vibrating. As the amplitude increases so does the energy the wave carries
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Sample Problem The string of a piano that produces the note middle C vibrates with a frequency of 264Hz. If the sound waves produced by this string have a wavelength in air of 1.30 m, what is the speed of sound in air?
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Solution Given: Frequency = 264 Hz wavelength = 1.30 m v = ?
v = frequency x wavelength = 264 Hz x 1.30 m = 343 m/s
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Sample Problem 2 boats are anchored 4 m apart. They bob up & down every 3 s. When one is up, the other is down. There are no crests between them. Determine the speed of the waves.
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½ = 4 m = 8m f = 1/T = 1/3s = 0.33 s-1 v = f = (8m)(0.33 s-1) = 2.7 m/s
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11-4 Wave Interactions
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Superposition Superposition is the idea that two waves can occupy the same space at the same time. Superposition principle: when two or more waves travel through a medium, the resultant wave is the sum of the displacements of the individual waves at each point.
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Once the waves pass through each other each wave proceeds independently.
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Constructive Interference
Results when 2 waves meet up exactly crest to crest ( in phase). This produces a pulse of greater amplitude than either of the original waves.
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Destructive Interference
Results when two waves meet exactly crest to trough ( out of phase). If the individual waves have the same amplitude the resultant wave will equal zero.
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Reflection from Free and Fixed Boundaries
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Standing Waves Wave pattern that results when two identical waves travel in opposite directions and interfere.
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Node: point in a standing wave that always undergoes complete destructive interference and therefore is stationary Antinode: point in a standing wave, halfway between two nodes, at which the largest amplitude occurs
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Only certain frequencies produce standing waves.
The wavelengths depend on the string length. Possible wavelengths include 2L, L, and (2/3)L
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