Wavelength Problem Homework: 2L or 4L for 0.5m String?

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Homework Help Overview

The problem involves a uniform string of length 0.5 m that is fixed at one end and free at the other, with a focus on determining the wavelength of the fundamental mode of vibration. Participants are discussing the relationship between the length of the string and the wavelength in this specific setup.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants are exploring the formula for wavelength in relation to the length of the string, questioning why the wavelength is considered to be 4L instead of 2L for the fundamental mode. Some are referencing diagrams and external resources to clarify the wave behavior in this scenario.

Discussion Status

The discussion is active, with participants raising questions about the application of different wavelength formulas based on the boundary conditions of the string. There is an exploration of different interpretations of the fundamental mode and its representation in diagrams.

Contextual Notes

Some participants express uncertainty about the derivation of the wavelength formula and its applicability to strings fixed at one end versus both ends. There is a suggestion that visual aids may help in understanding the concepts being discussed.

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Homework Statement


A uniform string of length 0.5 m. is fixed at one end and free at the other end. Find the wavelength of the fundamental mode of vibration.


Homework Equations


λ = (2L) / mode


The Attempt at a Solution


λ = (2(0.5 m.)) / 1
λ = 1 m.

But the solution says it's 2 m. because λ = 4*L. Why is it 4L when the formula is 2L?
 
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Delphi51 said:
The wave is like figure 4 in this link: http://www.studyphysics.ca/newnotes/20/unit03_mechanicalwaves/chp141516_waves/lesson51.htm

The string is fixed at the left end, free to vibrate at the other end. The fundamental frequency shown has 1/4 wavelength on the Length, so λ/4 = L. You almost have to draw the diagram to answer questions like this - too much to remember otherwise.

I don't understand why the fundamental is 1/4 wavelength in my problem. Maybe it might help if I understood where the formula λ = (2L) / mode came from, because it's the only one involving wavelength and length that I know.
 
I have not seen λ = (2L) / mode but it suggests a string fixed at both ends:
Then mode = 1 would be one wavelength spread over two lengths or half a wavelength on the string length L. At mode = 2, a complete wavelength on the length L. If you draw pictures of these, you'll see that both ends of the string are fixed in each case. See http://www.phys.unsw.edu.au/jw/strings.html.
 

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