What factors influence a material's natural frequency?

  • Thread starter Thread starter waves and change
  • Start date Start date
  • Tags Tags
    Frequency Resonance
AI Thread Summary
The discussion centers on the fundamental factors influencing a material's natural frequency, emphasizing the need for theoretical insights rather than empirical characteristics. Participants debate whether the topic pertains to mechanical or quantum mechanics, with some asserting that natural frequency is primarily determined by stiffness and mass. Others argue that quantum mechanics and phonons play a significant role in understanding resonant modes at a microscopic level. The conversation reveals a distinction between macroscopic and microscopic resonance, with participants clarifying their perspectives on the terminology used. Ultimately, the discussion highlights the complexity of natural frequency across different scales of physics.
waves and change
Messages
55
Reaction score
4
Hi all,
Wanted to get some insight on a technical level as to what are the most fundamental factors which influence a materials natural frequency? Looking for theory based insight not impirical characteristics.
 
Last edited by a moderator:
Physics news on Phys.org
waves and change said:
Hi all,
Wanted to get some insight on a technical level as to what are the most fundamental factors which influence a materials natural frequency? Looking for theory based insight not impirical characteristics.
Are you familiar with simple harmonic motion (SHM)? Like you get with a mass on a frictionless table that is attached by a spring to the table and is pulled a distance delta-x to stretch the spring and then is let go?. Can you show us the equation for the motion of that mass, based on its mass and the spring constant k?

And what equation would you use to determine the frequency of a guitar string when it is plucked, based on the linear mass density of the string, its tension, and its length?

:smile:
 
Thanks you for the insight but I am very familiar with these aspects of the topic. This is the reason why I stated in the question for the fundamental reason for a materials resonant modes beyond just the empirical mass and spring constant. Looking for insight at a chemistry level and QM.
 
Last edited:
waves and change said:
a materials natural frequency?
Is this about mechanical or em oscillations?
 
sophiecentaur said:
Is this about mechanical or em oscillations?

Mechanical
 
waves and change said:
Thanks you for the insight but I am very familiar with these aspects of the topic. This is the reason why I stated in the question for the fundamental reason for a materials resonant modes beyond just the empirical mass and spring constant. Looking for insight at a chemistry level and QM.
This isn't a QM issue. Natural frequency is a function of stiffness (spring constant) and mass only. Essentially, it is simplest modeled as a weight hanging from a spring:
http://personal.cityu.edu.hk/~bsapplec/natural.htm
 
russ_watters said:
This isn't a QM issue. Natural frequency is a function of stiffness (spring constant) and mass only. Essentially, it is simplest modeled as a weight hanging from a spring:
http://personal.cityu.edu.hk/~bsapplec/natural.htm

This absolutely is a QM issue and described by phonons to some degree. The classical approximation discussed in the link you cited was already discussed

http://grdelin.phy.hr/~ivo/Nastava/CvrstoStanje/arhiva/udzbenici/Upali_Siriwardane/586c4.htm
 
waves and change said:
This absolutely is a QM issue and described by phonons to some degree. The classical approximation discussed in the link you cited was already discussed

http://grdelin.phy.hr/~ivo/Nastava/CvrstoStanje/arhiva/udzbenici/Upali_Siriwardane/586c4.htm
Fair enough; it wasn't at all clear from what you said prior to my post. When I see mechanical resonant frequency cited, I think of the bulk object, not the vibration of individual atoms. You may have said QM but seemed to be describing something different.

Maybe at this point it would be helpful if you described what you are looking for beyond what is in the link you just posted. Or asked questions about what is in the link if there was something you didn't understand.

FYI, I'll drop out at this point since I'm a mechanical engineer, so bulk mechanical vibration is what I know, not QM.
 
russ_watters said:
Fair enough; it wasn't at all clear from what you said prior to my post. When I see mechanical resonant frequency cited, I think of the bulk object, not the vibration of individual atoms. You may have said QM but seemed to be describing something different.

Maybe at this point it would be helpful if you described what you are looking for beyond what is in the link you just posted. Or asked questions about what is in the link if there was something you didn't understand.

FYI, I'll drop out at this point since I'm a mechanical engineer, so bulk mechanical vibration is what I know, not QM.

Yeah sorry for the confusion. You are actually correct as the verbiage I used isn’t technically correct. “ natural frequency “ is usually used in the context of macroscopic phenomena. Microscopic resonance is described differently.

Thank you
 
  • Like
Likes russ_watters

Similar threads

Resonant frequency of small particles
Replies
1
Views
2K
What is meant by natural frequency?
Replies
27
Views
4K
Starting point to converting resonance/frequency into temp
Replies
7
Views
2K
Fundamental frequency of a rectangular-cavity whistle
Replies
1
Views
2K
Angular frequency of a non-sinusoidal pulse
Replies
4
Views
3K
About the definition of resonance frequency
Replies
40
Views
5K
Resonant frequency in acoustics
Replies
4
Views
2K
Stray/Parasitic Capacitance - Impacts phase velocity?
Replies
10
Views
3K
Resonance frequency and Natural frequency?
Replies
6
Views
7K
Acoustic resonance - Absorption vs Transmissibility
Replies
2
Views
3K

Hot Threads

Recent Insights

Back
Top