How Do Wire Characteristics Affect the Notes They Emit?

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Homework Help Overview

The problem involves two wires with specified ratios of length, tension, and diameter, and asks for the ratio of the notes they emit when sounded together. The subject area relates to the physics of sound and vibrations in strings.

Discussion Character

  • Exploratory, Conceptual clarification, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the meaning of "notes" in the context of sound frequencies produced by vibrating wires. There is exploration of the relationship between tension, length, and frequency, as well as questions about the role of wavelength and the significance of using the same sound source.

Discussion Status

Some participants have clarified that "notes" refers to frequencies and that the length of the wires affects the wavelength. There is ongoing exploration of how to derive the wavelength and its implications for the frequencies emitted by the wires.

Contextual Notes

Participants are considering assumptions about the material of the wires and the implications of the ratios provided in the problem statement. There is also mention of potential references in textbooks regarding relevant equations and concepts.

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Homework Statement


The lengths of two wires are in the ratio 1:2, their tensions are in the ratio 1:2 and their diameters in the ratio 1:3 . The ratio of the notes they emit when sounded together by the same source is?



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The Attempt at a Solution


How to do this problem...What exactly are notes...A google search didnt help much...
 
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"Notes" means a musicalnote, that is the frequency of the sound emitted by a vibrating wire. Your textbook should have a discussion, and relevant equations that involve quantities mentioned in the problem statement (tension, wire length).
 


Ok...so notes are simply their frequencies?
ok if so then i am assuming both wires to be of the same material...I have velocity given by √(T/density*A) ...here T = tension , A=cross sectional area...Now i have the ratio of their velocities...But if i want to use f=v/wavelegth i don't have wavelength...SO how do i go about it? and does the length of the wires play any role?

Thank you for your reply...
 


Yes, the notes are the frequencies. And yes, the length of wire plays a role in the wavelength; the wavelength is determined by the length of the wire. (There is probably a figure showing this in your textbook or lecture notes.)
 


Are you talking about the concept of standing waves where the length is an integral multiple of (wavelength/2). In this case they are not talking about any particular frequency (fundamental or 2nd overtone 3rd overtone whatever...)...So how do i get the wavelength?
 


And what is the significance of saying that they are from the same source?
 


The note is the frequency of the fundamental. I'm not sure what the "same source" refers to.
 


Ok...i got it using the fact that notes is corresponding to the fundamental frequency...Thanks...
 

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