What Are the Quantum Mechanics of a Particle in a 1-D Box?

swain1 · Nov 4, 2006

A particle moving in a 1-D box subject to a potential that is zero in the region and infinite at the walls and elsewhere.

(a) Determine the possible results of the measurement of the energy of this system and their relative probabilities. (b) What are the possible forms of the wave function immediately after such a measurement? (c) If the energy is immediately re-measured, what now will be the relative probabilities of the possible outcomes?

For this question I have the wavefunction at a paticular time and also the energy eigenvalues and eigenfunction. I understand the maths involved but I am struggling with working out what I have to do. I would be grateful of any help. Thanks

dimachka · Nov 4, 2006

well if you have the energy eigenvalues, you are done with part a, if you have the wavefunction you are done with part b, so it seems like you are well on your way. Part c wants you to realize that in quantum mechanics, a measurement collapses the wave function, google "quantum mechanics wavefunction collapse".

marlon · Nov 5, 2006

swain1 said:

A particle moving in a 1-D box subject to a potential that is zero in the region and infinite at the walls and elsewhere.

(a) Determine the possible results of the measurement of the energy of this system and their relative probabilities. (b) What are the possible forms of the wave function immediately after such a measurement? (c) If the energy is immediately re-measured, what now will be the relative probabilities of the possible outcomes?

For this question I have the wavefunction at a paticular time and also the energy eigenvalues and eigenfunction. I understand the maths involved but I am struggling with working out what I have to do. I would be grateful of any help. Thanks

So what did you get so far ? Formula's please...Starting from those, we can help you on your way.

Regards
marlon

swain1 · Nov 5, 2006

Thats really the problem I have is getting started. What I have tried is to work out the overlap integral of my wavefunction and the eigenfunction but I just have a horrible integration that I can't do and I don't know if I am going about it in the right way?

Colom · Nov 13, 2006

im trying to do that same exercise, but i don't know how to start, I am really having trouble with this one, could anyone give me a hand?

What Are the Quantum Mechanics of a Particle in a 1-D Box?

1. What is the main topic of discussion in Rae Chapter 4?

2. How does the author define a "good" question?

3. Why is it important for scientists to constantly ask questions?

4. What are some common barriers to asking good questions?

5. How does the author suggest overcoming these barriers?

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