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11 March, 15:27

A tightrope walker stands in the middle of a high wire that is stretched 10 m between the two platforms at the ends of the wire. The tightrope walker bounces up and down, creating a standing wave with a single antinode and a period of 2.0 s.

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  1. 11 March, 18:52
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    This question is not complete.

    Complete Question:

    A tightrope walker stands in the middle of a high wire that is stretched 10 m between the two platforms at the ends of the wire. The tightrope walker bounces up and down, creating a standing wave with a single antinode and a period of 2.0 s.

    a. What is the wavelength of the wire wave been produced?

    b. What is the frequency of this wave?

    c. What is the speed of this wave?

    Answer:

    a. Wavelength of the wire wave been produced = 20m

    b. Frequency of this wave = 0.5Hz

    c. Speed of this wave = 10m/s

    Explanation:

    a. Wavelength of the wire wave been produced is calculated as

    2 * L

    Where L is the length of the wire

    Wavelength = 2 * 10m

    Wavelength = 20m

    b. Frequency of this wave can be calculated as:

    1:T

    Where T = period = 2.0s

    Frequency = 1:2.0s

    Frequency = 0.5Hz

    c. Speed of this wave is calculated as

    Wavelength * Frequency

    Wavelength = 20m

    Frequency = 0.5Hz

    Speed of the wave = 20m * 0.5Hz

    = 10m/s
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