Calculating Wave Properties: Frequency, Wavelength, and Speed

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Homework Help Overview

The problem involves calculating wave properties such as frequency, wavelength, and speed from a given wave equation. The subject area is wave mechanics, specifically focusing on the mathematical representation of waves.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • The original poster attempts to calculate frequency and wavelength directly from the wave equation but expresses confusion about the results. Some participants suggest using relationships between angular frequency and frequency, as well as between wave number and wavelength, to derive the necessary values.

Discussion Status

Participants are exploring the relationships between the parameters of the wave equation. Some guidance has been provided regarding the equations relating frequency, wavelength, and speed, but there is no explicit consensus on the original poster's approach or results.

Contextual Notes

The original poster indicates uncertainty in their calculations and mentions a mismatch with expected solutions. There is also a note of confusion regarding the use of variables in the equations.

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Homework Statement


the displacement of a wave traveling in the negative x-direction is given by
y(x,t)=(5.2cm)cos(5.5x/m+72t/s)

where x is in metres, t is in seconds, calculate:
i)the frequency
ii) the wavelength
iii) the speed of this wave)



The Attempt at a Solution



i have absolutely no idea how do calculate the first 2. i thought you could just read the frequency and wavelength of the equation but this doesn't match my solutions

i know part iii) will be speed=72/5.5= 13 m/s
 
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Remember that the equation of a wave is y(x,t) = ymsin(kx +- wt). In this case its s(x,t) = smcos(kx +- wt). Your equation above takes the form of the latter. Frequency is related to w by the equation w = 2pi f where f is frequency - so just plug in the w from your equation and solve. Also, k is related to wavelength (I'll label wavelength as y) by the equation k = (2pi)/y. Here you also just need to plug in your values from the equation and solve. And yeah, you're right about the speed. v = w/k.
 
this is exactly what i had done but i had used k for w and w for k, that's for the help!
 
thanks**
 

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