Help with displacement and velocity of waves on a string (using trig)

AI Thread Summary
The discussion centers on calculating the wave speed from the displacement function y = 0.2 cos(10x - 4t). The correct wave speed is determined to be 0.4 m/s, but confusion arises regarding the term "10x" in the equation. Participants suggest using the wave equation to clarify the relationship between wave parameters. The key point is understanding how to apply the wave equation to relate the angular frequency and wave number to find the speed. The conversation emphasizes the importance of recognizing the format of the wave equation in solving for wave speed.
ninjarawr
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Hello all,

excited to be on the forums. I'm having trouble solving a problem from one of my past exams (prepping for final). Could you please guide me?

The displacement associated with a wave on a string has the functional form y = 0.2 cos (10x - 4t). What is the wave speed?

The answer is 0.4 m/s...but how do I get here? what is really bothering me is the "10x"...I'm used to the format y = Acos(wt), where wA = v.


thanks!

ninja
 
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Use the wave equation since it is a wave.
 
zachzach said:
Use the wave equation since it is a wave.

yeah...but what do I do with the "10x"?
 
There is no 10x you are using the differential wave equation right?
<br /> \frac{\partial^2\psi}{\partial x^2} = \frac{1}{v^2}\frac{\partial^2\psi}{\partial t^2}<br />
 

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