Maximizing Profit in Online Business

Click For Summary

Homework Help Overview

The discussion revolves around the behavior of a vibrating string when touched lightly at a specific point, particularly focusing on the implications for nodes and frequencies. The subject area includes wave mechanics and oscillations in physics.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • Participants explore the meaning of "lightly touched" and its implications for the oscillation of the string. There are attempts to clarify whether touching the string at a node affects its overall behavior and frequency. Some participants question the interpretation of the problem and the assumptions made about the string's oscillation.

Discussion Status

The discussion is active, with various interpretations being explored. Some participants suggest that the problem may have been overanalyzed, while others provide insights into how touching the string lightly affects its oscillation. There is a recognition of differing viewpoints regarding the setup and conditions of the problem.

Contextual Notes

Participants note that the problem is presented at an AS level, implying it should be manageable. There is also mention of needing more information for deeper analysis, indicating potential constraints in the problem setup.

maxelcat
Messages
33
Reaction score
4
Homework Statement
The fundamental frequency f is the lowest frequency heard when a stretched string is vibrating.
The string is now lightly touched one third of the way along its length.
What is the lowest frequency heard?

The answer seems to be 3f - but I cannot get that.
Relevant Equations
speed = freq x wavelength
Here's my working. Perhaps I make some wrong assumptions?
1618331589559.png
 
Physics news on Phys.org
Your reasoning is not clear to me. Also, what does "lightly touched" mean? Is it supposed to imply that the string needs to have a node there? (Note that the wave with wavelength 4L/3 does not have a node at one of the ends.
 
well, I read it as being a node at the point at the point where it is touched
 
Orodruin said:
Also, what does "lightly touched" mean?

I believe the "lightly" qualifier for these types of problems serves to indicate that the parts of the string on both sides of the node continue to oscillate,

as opposed to having the string on one particular side of the node stop oscillating, effecting a reduction in the oscillating length.

(e.g. as shown here: https://commons.wikimedia.org/wiki/File:Flageolette.svg)
 
  • Like
Likes   Reactions: DaveE
maxelcat said:
well, I read it as being a node at the point at the point where it is touched
Is there any frequency with wavelength 4L/3 for the string of length L?
 
etotheipi said:
I believe the "lightly" qualifier for these types of problems serves to indicate that the parts of the string on both sides of the node continue to oscillate,

as opposed to having the string on one particular side of the node stop oscillating, effecting a reduction in the oscillating length.

(e.g. as shown here: https://commons.wikimedia.org/wiki/File:Flageolette.svg)
that is how i read it. so string vibrates in two sections one of lenth 2L/3 and one L/3
 
maxelcat said:
that is how i read it. so string vibrates in two sections one of lenth 2L/3 and one L/3
No, that is not what he said. That would be holding the string firmly at L/3.
 
  • Like
Likes   Reactions: etotheipi
From my understanding of the problem, ##f_2## is your frequency for the string of length ##2/3L##. Try to isolate it on one side of the equal sign and see what frequency you get.

Then do the problem for the string of length ##1/3L## and see what frequency you get for that.
 
Orodruin said:
No, that is not what he said. That would be holding the string firmly at L/3.
so that would mean there is only going to wave - the shorter one
 
  • #10
hicetnunc said:
From my understanding of the problem, ##f_2## is your frequency for the string of length ##2/3L##. Try to isolate it on one side of the equal sign and see what frequency you get.

Then do the problem for the string of length ##1/3L## and see what frequency you get for that.
Again, this is not how I read the problem based on #4.
 
  • #11
Orodruin said:
Again, this is not how I read the problem based on #4.
I think the problem has been WAY overanalysed. I think it's just a problem involving an initial string of length ##L## and frequency ##f##, that you subdivide into two parts and calculate their frequencies. At least, that would be my experience with homework problems.

For any deeper analytics, one would need more information about the string.
 
  • #12
@maxelcat, the point is that if you touch the string lightly at a position ##L/3##, then the string continues to oscillate "as a whole", i.e. the new lowest frequency of oscillation (say ##f'##) is the same for all points on the string. You are essentially just imposing the condition that the string, of length ##L##, has a node at position ##L/3##. Have a look at case 5 in the image I linked to in post #4; it should then be clear why ##f' = 3f##!

This is not the same as pressing firmly, which would result in the two sides of the string becoming independent of each other (effectively, you'd instead have two separate, shorter strings).
 
  • Like
Likes   Reactions: hicetnunc
  • #13
etotheipi said:
@maxelcat, the point is that if you touch the string lightly at a position ##L/3##, then the string continues to oscillate "as a whole", i.e. the new lowest frequency of oscillation (say ##f'##) is the same for all points on the string. You are essentially just imposing the condition that the string, of length ##L##, has a node at position ##L/3##. Have a look at case 5 in the image I linked to in post #4; it should then be clear why ##f' = 3f##!

This is not the same as pressing firmly, which would result in the two sides of the string becoming independent of each other (effectively, you'd instead have two separate, shorter strings).
Yes - I can see that. I misunderstood what it meant about 'lightly'. Thanks all. (BTW this is an AS level q so it shouldn't be hard!)
 
  • Like
Likes   Reactions: etotheipi
  • #14
hicetnunc said:
I think the problem has been WAY overanalysed. I think it's just a problem involving an initial string of length ##L## and frequency ##f##, that you subdivide into two parts and calculate their frequencies. At least, that would be my experience with homework problems.

For any deeper analytics, one would need more information about the string.
No, you just have the wrong interpretation. The entire idea of being touched lightly is to force the string, as a whole, into an oscillation that has a node point at L/3.
 

Similar threads

Contradictory Sources: Trying to understand waves on a rope being reflected at a boundary
  • · Replies 22 ·
Replies
22
Views
2K
Reflection of sound wave in an open organ pipe
  • · Replies 4 ·
Replies
4
Views
2K
Understanding Standing Waves in Open Tubes
  • · Replies 1 ·
Replies
1
Views
2K
MHB Total Profit of the business partners for the year
  • · Replies 3 ·
Replies
3
Views
2K
Length of string in a standing wave
  • · Replies 19 ·
Replies
19
Views
1K
Are Supercomputers Still Profitable in the Age of Cloud Computing?
  • · Replies 7 ·
Replies
7
Views
2K
Amplitude of standing wave for higher frequency
  • · Replies 7 ·
Replies
7
Views
2K
Undergrad Calculating a "fixed profit" on inventory
  • · Replies 8 ·
Replies
8
Views
1K
Optics homework: Why is this equation called a standing wave?
  • · Replies 2 ·
Replies
2
Views
1K
Critical frequency of Faraday Waves?
  • · Replies 6 ·
Replies
6
Views
1K