Particle in a box question

In summary, the "particle in a box" problem involves solving Schrodingers equation to find the energy of a particle confined in a box of length L. If the walls of the box are moved, there will be a new set of possible energies for the particle. If the walls are moved quickly, the particle will be in a superposition of states and the energy upon measurement will be different than the original energy. However, if the walls are moved slowly, the particle will always be in the ground state and work must be done on the system.
  • #1
allanm1
6
0
"Particle in a box" question

The solution of Schrodingers equation for the simple "particle in a box" problem is:

E = (n^2)(h^2) / 8m(L^2)

where L = the length of the box.

See http://en.wikipedia.org/wiki/particle_in_a_box"

Say that the initial energy of the particle is E1.
If at a later time the length of the box is changed (a moveable wall), then there are now a completely new set of possible energies available, for n=1,2,3 etc. What if none of these new allowed energies equals the original energy of the particle?

What happens to the energy difference?
 
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  • #2
Nobody can answer?!
 
  • #3
It depends on how slowly the walls of the box are moved.
 
  • #4
Suppose they are abruptly removed. I.e. they instantly vanish. The particle state is now in a superposition of the eigenstates of the new box and will settle into one of them upon measurement. In any case, the energy upon measurement wil be different than originally.
 
  • #5
Particle in a box

In my original question I was assuming that the energy of the particle was
conserved after changing the size of the box.

Was I wrong in assuming this. Maybee changing the size of the box does work on the particle? Like compressing a gas if there were many particles.

Is it the energy state n that is conserved?

Please confirm.
 
  • #6
Hi allanm1,

Yes, if you move the walls of the box slowly then the particle will always be in the ground state. In this case you must clearly have done work on the system since the energy of the system is changing.

Hope this helps.
 

What is a "Particle in a box" question?

A "Particle in a box" question is a common problem in quantum mechanics that involves studying the behavior of a particle confined within a finite space, or "box". This problem is often used as a simple model to understand the principles of quantum mechanics.

What are the assumptions made in a "Particle in a box" question?

The main assumptions made in a "Particle in a box" question are that the walls of the box are infinitely high and the particle is non-interacting with the walls. This means that the particle cannot escape from the box and that it does not interact with the walls in any way.

What is the significance of a "Particle in a box" question?

The "Particle in a box" question is significant because it allows us to understand the behavior of particles in confined spaces, which is important in fields such as nanotechnology and materials science. Additionally, it serves as a simple model for understanding the principles of quantum mechanics.

What are the solutions to a "Particle in a box" question?

The solutions to a "Particle in a box" question are known as "wavefunctions" and they describe the probability of finding the particle in a certain location within the box. These solutions are found using mathematical equations and can vary depending on the specific conditions of the problem.

What types of "Particle in a box" questions are there?

There are two main types of "Particle in a box" questions: the infinite square well and the finite square well. The infinite square well assumes infinite potential barriers at the edges of the box, while the finite square well has finite potential barriers. These different types of problems can have different solutions and behaviors for the particle.

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