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5 August, 17:41

To practice Problem-Solving Strategy 15.1 Mechanical Waves. Waves on a string are described by the following general equation y (x, t) = Acos (kx-ωt). A transverse wave on a string is traveling in the + x direction with a wave speed of 8.50 m/s, an amplitude of 5.50*10-2 m, and a wavelength of 0.500 m. At time t=0, the x=0 end of the string has its maximum upward displacement. Find the transverse displacement y of a particle at x = 1.52 m and t = 0.150 s.

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  1. 5 August, 18:10
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    0.0549 m

    Explanation:

    Given that

    equation y (x, t) = Acos (kx-ωt)

    speed v = 8.5 m/s

    amplitude A = 5.5*10^-2 m

    wavelength λ = 0.5 m

    transverse displacement = ?

    v = angular frequency / wave number

    and

    wave number = 2π / λ

    wave number = 2 * 3.142 / 0.5

    wave number = 12.568

    angular frequency = v k

    angular frequency = 8.5 * 12.568

    angular frequency = 106.828 rad/sec ~ = 107 rad/sec

    so

    equation y (x, t) = Acos (kx-ωt)

    y (x, t) = 5.5*10^-2 cos (12.568 x-107t)

    when x = 0 and and t = 0

    maximum y (x, t) = 5.5*10^-2 cos (12.568 (0) - 107 (0))

    maximum y (x, t) = 5.5*10^-2 m

    and when x = x = 1.52 m and t = 0.150 s

    y (x, t) = 5.5*10^-2 cos (12.568 (1.52) - 107 (0.150))

    y (x, t) = 5.5*10^-2 * (0.9986)

    y (x, t) = 0.0549 m

    so the transverse displacement is 0.0549 m
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