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30 March, 04:31

A sinusoidal transverse wave travels along a long, stretched, string. the amplitude of this wave is 0.0885 m, it's frequency is 4.31 hz, and its wavelength is 1.21m.

(a) What is the transverse distance between a maximum and a minimum of the wave?

(b) How much time is required for 71.7 cycles of the wave to pass a stationary observer?

(c) Viewing the whole wave at any instant, how many cycles are there in a 30.7-m length of string?

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Answers (1)
  1. 30 March, 06:02
    0
    (a) 0.177 m

    (b) 16.491 s

    (c) 25 cycles

    Explanation:

    (a)

    Distance between the maximum and the minimum of the wave = 2A ... Equation 1

    Where A = amplitude of the wave.

    Given: A = 0.0885 m,

    Distance between the maximum and the minimum of the wave = (2*0.0885) m

    Distance between the maximum and the minimum of the wave = 0.177 m.

    (b)

    T = 1/f ... Equation 2.

    Where T = period, f = frequency.

    Given: f = 4.31 Hz

    T = 1/4.31

    T = 0.23 s.

    If 1 cycle pass through the stationary observer for 0.23 s.

    Then, 71.7 cycles will pass through the stationary observer for (0.23*71.7) s.

    = 16.491 s.

    (c)

    If 1.21 m contains 1 cycle,

    Then, 30.7 m will contain (30.7*1) / 1.21

    = 25.37 cycles

    Approximately 25 cycles.
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