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Units being used in the graphs for ψ and radius (in nm) and ψ^2 and ra

by tennispro1213
Tags: ψ, , graphs, radius, units
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tennispro1213
#1
Jun5-14, 11:01 AM
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We've just started learning about ψ in the quantum mechanics section of our atomic structure chapter. So while reading, I found these graphs where they used certain units along the y-axis for the graphs for ψ and radius (in nm), and ψ^2 and radius.

What units are these exactly???

My chemistry teacher wasn't able to give a reasonable explanation, and trying to learn about it online has left me overwhelmed with all sorts of complicated formulae.
So please help, and don't forget: this is the first time I'm reading about all this.
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mfb
#2
Jun5-14, 06:21 PM
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P: 11,928
The units of ψ are probably $$nm^{-\frac{3}{2}}$$
If you square it and integrate it over the 3D volume, the result has to be dimensionless (1, if properly normalized). So the unit of ψ2 is just ##\frac{1}{nm^3}##.
Yanick
#3
Jun5-14, 06:26 PM
P: 383
My limited understanding of wavefunctions is that you cannot physically interpret a wavefunction in and of itself. The square of a wavefunction is interpreted in a probabilistic manner such that the square of the absolute value of psi can be interpreted as the probability of finding the particle in a region (x + dx). You can read a bit more about it here. You can see in your attachments that the psi2 gives some peaks which are areas where you are most likely to find the particle. Additionally you have many areas where the probability of finding the particle is non-zero, so you can find the particle in those regions some of the time but less often. This is the reason why you may have been hearing about "electron clouds" and such and the spooky nature of the quantum world. I'm sure others may have better answers for you.

mfb
#4
Jun6-14, 01:54 AM
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Units being used in the graphs for ψ and radius (in nm) and ψ^2 and ra

Quote Quote by Yanick View Post
My limited understanding of wavefunctions is that you cannot physically interpret a wavefunction in and of itself.
You can.
Interpretations of quantum mechanics
In some of them, the wavefunction is a real thing.


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