Alternators, Dynamos & Oscilloscopes

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Created by
Khalisa

Cards (14)

  • What is the principle behind electromagnetic induction?
    Generating electric current by moving a wire
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  • What are alternators and dynamos classified as?
    Generators
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  • How do generators produce electricity?
    From rotational motion of a coil of wire
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  • What is the key difference between dynamos and alternators?
    • Dynamos use a split ring commutator
    • Alternators use slip rings and brushes
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  • What type of current do dynamos produce?
    Direct current
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  • What type of current do alternators produce?
    Alternating current
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  • What happens when the coil of wire rotates relative to the magnets in an alternator?
    A magnetic field induces voltage and current
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  • Why do slip rings and brushes in alternators prevent wrapping during rotation?
    They allow continuous contact without interruption
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  • What does the oscilloscope visualize in an alternator?
    The alternating potential difference and current
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  • How does the speed of the coil rotation affect the alternating current in an alternator?
    Faster rotation increases peak height and frequency
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  • What happens when the coil of wire spins relative to the magnet in a dynamo?
    A magnetic field induces voltage and current
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  • What is the role of the split ring commutator in a dynamo?
    It swaps contacts every half turn
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  • Why is direct current always positive on an oscilloscope graph?
    Because it flows in the same direction
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  • How does the speed of rotation affect the oscillations in a dynamo?
    Faster rotation increases peak size and frequency
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