Modeling a System of Distinguishable Oscillators

In summary, the conversation discusses the search for a real system where a collection of identical oscillators is a better model than a solid. The possibility of diatomic gas molecules is mentioned, but the preference is for distinguishable oscillators at fixed sites. It is also suggested that the oscillator frequency should be dependent on a macroscopic variable. The use of the Einstein model for diatomic solids is brought up, but the question of how the molecules are held together is raised. The need for the oscillators to be quasi-independent from the lattice for teaching purposes is also mentioned.
  • #1
Philip Wood
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Does anyone know of a real system for which a collection of (weakly coupled) identical oscillators is a better model than it is for a solid?

Diatomic gas molcules are a possibility, but I'm really looking for a system of distinguishable oscillators, which no doubt dictates oscillators at (roughly) fixed sites.

It would also be good if the oscillator frequency were dependent in some clear way on a macroscopic variable such as strain or a field strength. This is probably too much to expect!
 
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  • #2
Doesn't the Einstein model describe well a solid formed of diatomic molecules, at least as far as the internal vibrations of the molecule ("optical modes") are concerned?
 
  • #3
Thanks for replying. You may well be right. How do you envisage that the diatomic molecules are held together to make the solid? Do you have a particular solid in mind? I need the oscillators to be quasi-independent from the lattice, as I'm looking for a practical near-realisation of a collection of monoperiodic oscillators, as an example for teaching purposes.
 

1. What is a system of distinguishable oscillators?

A system of distinguishable oscillators refers to a set of objects that are capable of oscillating or vibrating in a specific manner, and can be differentiated from one another based on certain characteristics such as frequency, amplitude, or phase.

2. Why is it important to model a system of distinguishable oscillators?

Modeling a system of distinguishable oscillators allows for a better understanding of how the individual components interact with one another, and how changes in one oscillator can affect the behavior of the entire system. This can be useful in various fields such as physics, engineering, and biology.

3. What are some common techniques used to model a system of distinguishable oscillators?

Some commonly used techniques include mathematical models, computer simulations, and experimental setups using physical oscillators. These techniques allow for the analysis and prediction of the behavior of the system under different conditions.

4. How can the behavior of a system of distinguishable oscillators be visualized?

The behavior of a system of distinguishable oscillators can be visualized using graphs or plots of various parameters such as displacement, velocity, and acceleration over time. These visualizations can help in identifying patterns and understanding the dynamics of the system.

5. What are some real-life applications of modeling a system of distinguishable oscillators?

Modeling a system of distinguishable oscillators has numerous real-life applications, such as in the design of electronic circuits, predicting the behavior of chemical reactions, and studying the dynamics of biological systems such as the human heart. It can also be used in fields such as meteorology, seismology, and economics.

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