chapter 16 superposition and standing waves - cscamm · chapter 16 superposition and standing waves...
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• Superposition • Constructive and
destructive interference • Standing waves • Resonant modes of
systems • Beats
Chapter 16 Superposition and Standing Waves Topics:
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Principle of Superposition
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An example of superposition
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An example of destructive interference
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Checking Understanding
Two waves on a string are moving toward each other. A picture at t = 0 s appears as follows:
How does the string appear at t = 2 s?
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Two waves on a string are moving toward each other. A picture at t = 0 s appears as follows:
How does the string appear at t = 2 s?
Answer
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Standing waves
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Standing waves on a string
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Standing Wave Modes on a string: wavelengths
In this case we have one anti-node (max amplitude), and two nodes. The wavelength is
= 2L
Here we have two-antinodes (and three nodes). The wavelength is L (=2L/2)
And here three anti-nodes (and four nodes). The wavelength is 2L/3�
In general, if we have m anti-nodes, the wavelength is 2L/m.
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• The case m=1 is called the fundamental mode, or first harmonic (with fundamental or primary frequency and wavelength).
• The case m=2 is called the second harmonic.
• And so on.
• ‘m’ is called the mode number.
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Imagine that the string where we have a standing wave is that one of a guitar or violin.
The standing wave produces vibrations in the air surrounding the string, creating a sound wave.
Does the pitch of the tone become higher or lower as go to higher harmonics?
Notice that here v is the speed of propagation of waves on the string, not the speed of sound in air. Why?
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String instruments
Recall that the velocity of sound in a string is given by:
T= tension; m = linear mass density
For a fixed speed, the frequency (pitch) gets higher with shorter strings.
For a fixed length, the higher the velocity the higher the frequency (pitch). In that case, the pitch changes with: 1) Mass density m: The heavier the string the lower the note/pitch. 2) Tension T: the tighter the string, the higher the note/pitch. For a fixed length, the higher the velocity the higher the frequency (pitch).
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Standing Sound Waves
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Physics of Speech and Hearing
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Interference of Spherical Waves
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Beats
fbeat = |f1 - f2|