Finding mass per unit length of a string

AI Thread Summary
To find the mass per unit length (mu) of a guitar string tuned to D3, the relevant equation is V = sqrt(T/mu), where V is the wave velocity. The wave velocity is related to frequency and wavelength, with the formula v = fλ. The wavelength for the string wave must be determined, as it differs from the sound wave in air. The discussion highlights the need to clarify the relationship between wave properties and how to incorporate the string's length into the calculations. Understanding these concepts is crucial for solving for mu accurately.
whiterobot
Messages
2
Reaction score
0
i am a non physics or math major taking a 'physics of sound and music' course that deals with different wave forms. i am enjoying the class very much (more than i thought i would!) but am having trouble with the math, as the last math class i took was pre-calculus my junior year of high school. here's the question i am having the problem with:

The 4th string on a guitar is normally tuned to the D below middle C (D3). Suppose the string is 646 mm long. If I want the tension to be 30 N, what mass per unit length do I need?

i think (but could definitely be wrong) that the equation to use is V = sqrt (T/mu)

mu is what i am trying to find, and i am guessing that v would be the frequency of D3, which is 146.83Hz.

so, 146.83 = sqrt (30N/mu)

that's about as far as i have gotten - i don't know if i am on the right track and, if i am, how do i solve for mu? where does the length of the string come into play, if it does at all? i am lost!
 
Last edited:
Physics news on Phys.org
Hi whiterobot,

whiterobot said:
i am a non physics or math major taking a 'physics of sound and music' course that deals with different wave forms. i am enjoying the class very much (more than i thought i would!) but am having trouble with the math, as the last math class i took was pre-calculus my junior year of high school. here's the question i am having the problem with:

The 4th string on a guitar is normally tuned to the D below middle C (D3). Suppose the string is 646 mm long. If I want the tension to be 30 N, what mass per unit length do I need?

i think (but could definitely be wrong) that the equation to use is V = sqrt (T/mu)

mu is what i am trying to find, and i am guessing that v would be the frequency of D3, which is 146.83Hz.

so, 146.83 = sqrt (30N/mu)

that's about as far as i have gotten - i don't know if i am on the right track and, if i am, how do i solve for mu? where does the length of the string come into play, if it does at all? i am lost!

Homework Statement




No, the V in that equation is the velocity of the wave. How is the wave velocity related to the wave fequency?
 
well, v = wavelength/period, correct? so, the new equation would be:

wavelength = 344/146.8 = 2.3
period = 2.3/344 = .007

so v = 2.3/.007 = 385.71

385.71 = sqrt (30N/ mu)?
 
whiterobot said:
well, v = wavelength/period, correct?

That's true; and since period = (1/frequency), the more standard way to write this (and more convenient for this problem) is:

<br /> v=f\lambda<br />

so, the new equation would be:

wavelength = 344/146.8 = 2.3

This is the wavelength of the sound wave (in the air), but here you need the wavelength of the string wave. What would that be?
 

Thread 'Errors and significant figures'

I multiplied the values first without the error limit. Got 19.38. rounded it off to 2 significant figures since the given data has 2 significant figures. So = 19. For error I used the above formula. It comes out about 1.48. Now my question is. Should I write the answer as 19±1.5 (rounding 1.48 to 2 significant figures) OR should I write it as 19±1. So in short, should the error have same number of significant figures as the mean value or should it have the same number of decimal places as...
View full post »
Thread 'A cylinder connected to a hanging mass'

Thread 'A cylinder connected to a hanging mass'

Let's declare that for the cylinder, mass = M = 10 kg Radius = R = 4 m For the wall and the floor, Friction coeff = ##\mu## = 0.5 For the hanging mass, mass = m = 11 kg First, we divide the force according to their respective plane (x and y thing, correct me if I'm wrong) and according to which, cylinder or the hanging mass, they're working on. Force on the hanging mass $$mg - T = ma$$ Force(Cylinder) on y $$N_f + f_w - Mg = 0$$ Force(Cylinder) on x $$T + f_f - N_w = Ma$$ There's also...
View full post »

Similar threads

Circle approximation of a wave pulse on a string or spring
Replies
29
Views
1K
Find mass per unit length of a string graphically
Replies
5
Views
4K
Three Phase Per Unit System - Mark up, represent as single phase equiv
Replies
0
Views
1K
Sound & Music - Mass per unit length
Replies
11
Views
2K
No mass for mass per unit length
Replies
1
Views
2K
Physics behind the sound of guitars
Replies
23
Views
3K
What units for the wave function of a string?
Replies
1
Views
936
Question about Waves on a String
Replies
2
Views
2K
Time it Takes for a Transverse Pulse to Travel a Distance "L" Up a Cable Against Gravity?
Replies
13
Views
1K
HELP Mass per unit length equation
Replies
6
Views
5K

Hot Threads

Recent Insights

Back
Top