What is the wave speed and string velocity for y(x,t) = 3e^-(2x-4t)^2?

AI Thread Summary
The wave function y(x,t) = 3e^-(2x-4t)^2 represents a transverse pulse traveling along a string. To find the wave speed, the relationship between the second partial derivatives of the wave function with respect to time and position is applied. The wave speed can be determined from the coefficients in the exponent of the wave function. For part b, the string velocity at x=0 is found by taking the time derivative of the wave function, which correctly gives the rate of change of the Y position. This approach confirms the method for calculating both wave speed and string velocity.
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Homework Statement



y(x,t) = 3e-(2x-4t)^2

Consider the wave function which represents a transverse pulse that travels on a string along the horizontal x-axis.

a) Find the wave speed
b) Find the velocity of the string at x=0 as a function of time

Homework Equations



The Attempt at a Solution



I think, for b) I should take the derivative of the original wave function with respect to t.
Easy if that's the case.

I have no idea about part a.
 
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Wow, thanks merry. I completely forgot about the linear wave equation.

And is my solution for part b correct? (Taking the derivative of the function with respect to time to find the string velocity function)
 
I would say so. At x = 0 that wave function gives Y position as a function of time, so its time derivative would be the rate of change of the Y position.
 

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