Loudspeakers and Headphones

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Created by
Benedict

Cards (18)

  • What is the motor effect?
    A force experienced by a current-carrying conductor in a magnetic field
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  • In which devices is the motor effect used?
    Loudspeakers and headphones
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  • What components are found in a moving coil loudspeaker?
    A cone, coil of wire, and a permanent magnet
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  • How is the coil of wire connected in a loudspeaker?
    To an alternating current electrical supply
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  • What happens when current passes through the coil of wire?
    It generates a magnetic field
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  • How do the magnetic fields interact in a loudspeaker?
    They either attract or repel each other
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  • What does the resultant force on the cone cause?
    The cone to move in and out
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  • What happens when the direction of the current switches?
    The direction of the force on the cone reverses
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  • How is sound produced by the loudspeaker?
    By generating sound waves through cone vibrations
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  • What does a higher frequency produce in terms of sound?
    A higher pitch sound
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  • How does changing the frequency of the AC supply affect sound?
    It changes the frequency that the cone vibrates
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  • What does a lower frequency produce in terms of sound?
    A lower pitch sound
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  • What happens if the size of the current is increased?
    The amplitude of the vibration increases
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  • What does an increase in amplitude result in?
    An increase in the volume of the sound
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  • What are the components of a moving coil loudspeaker?
    • Cone
    • Coil of wire
    • Permanent magnet
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  • How does the motor effect apply to loudspeakers?
    • Current generates a magnetic field
    • Magnetic fields interact (attract/repel)
    • Cone moves in and out, producing sound
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  • How does frequency affect sound pitch in loudspeakers?
    • Higher frequency = higher pitch sound
    • Lower frequency = lower pitch sound
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  • How does current size affect sound volume in loudspeakers?
    • Increased current size = increased amplitude
    • Increased amplitude = increased volume
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