Trasverse wave wavelenght and velocity problem

AI Thread Summary
The discussion revolves around calculating the wavelength and velocity of transverse waves on a rope with a given amplitude and distance between waves. The user initially attempts to find the wavelength using the wave number k but encounters confusion with the sine function. A correction is provided, clarifying that the maximum transverse speed relates to the angular frequency, allowing for the determination of frequency. By deriving the wave equation with respect to time, the user can find the necessary parameters to calculate the wave speed. The importance of correctly interpreting the wave equations and their derivatives is emphasized for solving the problem accurately.
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Homework Statement



Along a long tense rope are traveling transverse waves with amplitude A= 10 cm. What is the wavelength, if at any given time the distance between two consecutive neighboring waves y= 5 cm is d= 6 cm? With what velocity are the waves spreading, if the maximum transverse speed of the rope is ω= 0.1m/s?

Homework Equations



v= fλ
k= 2π/ λ
y= A sin(k*x)

The Attempt at a Solution



For the wavelength:
k= 2π/ λ → λ= 2π/ k

Calculating k:
y= A(sin k)(sin x) → sin k= y/ A(sin x)
sin k= 5, which is wrong

Where is my mistake?
 
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I don't understand what you did, but the equation for a wave is y=Asin(wt). (Note that the w here is different from the w in the question.) Derive that with respect to t and you get dy/dt=Awcos(wt), so Aw is the rope's maximum transverse speed. From there you can get the frequency, which you can then multiply by the wavelength to get speed.
 

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