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The equation of a particular wave travelling along a wire is given as

y=(0.47m)sin[(150s−1)t+(53m−1)x]y=(0.47m)sin⁡[(150s−1)t+(53m−1)x]

  1. Based on this equation, find the amplitude, wavelength, frequency, and velocity of the wave. Be sure to include the correct sign for the velocity.

    Amplitude = m Wavelength = m Frequency = Hz Velocity = m/s

  2. What is the displacement of the wire at x=0.29x=0.29 m and t=0.26t=0.26 s?

    Displacement = m

I got the first three right but can't figure out how to get the last two.

The equation of a particular wave travelling along a wire is given as y= (0.47m) sin((150s-?)t + (53m-?)x] a. Based on this e

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Answer #1

We have given y = (0.47m) sin((150s-?)t + (53m-1).

Standard equation for the wave traveling in negative direction with velocity (v) may be written as

y = (A) sin((w)t + (k).

So on comparing

Amplitude will be A= 0.47m

Propagation vector k = 53 m^{-1}

6) Propagation vecty k = 53mt k= 211 x = 21 = 20 x 0.19 m Angulars frequency w = 150 W2200 v (frequenry) = 6 - 1 7 23:87 HZ Vb) in order to calculate the displacement put the variables values of x and t, then just solve it.  

* one important thing to note that sign of velocity will be negative (traveling in opposite directions).  

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