What Is the Phase Angle of a Wave Traveling on a String?

AI Thread Summary
The discussion centers on calculating the phase angle of a transverse sinusoidal wave traveling on a string with a given amplitude and displacement. At time t=0, the displacement at x=0 is 4 cm, leading to the calculation of the phase angle using the equation φ = arccos(x/A). The initial calculation yields a phase angle of 36.87 degrees, but there is a correction needed due to the nature of wave equations. The correct approach involves using the wave equation y = A sin(k*x - ω*t + phase angle) for accuracy. Ultimately, the phase angle is clarified as needing a reevaluation based on proper wave mechanics.
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A transverse, sinusoidal wave is traveling along a string. It moves in the negative x-direction, and it has an amplitude of 5 cm. At time t=0, the point at x=0 is at a displacement of 4 cm and is traveling upward. What is the phase angle in degrees?

Homework Equations


x = A*cos(\omega*t+\phi)

The Attempt at a Solution



At t=0, \omega*t = 0, so x = A*cos(\phi). Therefore, \phi = arccos(x/A) = arccos(.8) = 36.87.

The acceleration is negative and the velocity is positive, so the angle is 360 - 36.87 = 323.13 degrees, right?
 
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The equation you just used is not trustworthy for waves.It can be only generalized to SHM.

You must use wave equations to be more sure in your answers.

y= A sin ( k*x-omega*t + phase angle)
 

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