Magnetic field of plane current/solenoid (Griffiths ex. 5.8 and 5.9)

wizzart
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Time for me to feel stupid again:

In Griffiths' introduction to electro dynamics examples 5.8 and 5.9 the magnetic fields of plane currents and solenoids are discussed. In both, certain components of the magnetic fields are said to be zero based on symmetry and current reversal arguments. I'm a believer, just don't understand WHY.

For those who don't own Griffiths:
-Why is the Z-component of a current in the xy plane zero (i.o.w. why can't it change if the direction of the current is reversed).
-Why is there no radial component of the field of a solenoid with a circumferential surface current?

Thanks in advance.
 
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Think I figured it out. For instance, in the case of the solenoid: if instead of reversing the current or rotating the solenoid 180 deg. I stand on my head and look at the magnetic field, I should still see the same field...

If this is correct, I apologize for the forum pollution.
 
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Thread 'Need help understanding this figure on energy levels'

This figure is from "Introduction to Quantum Mechanics" by Griffiths (3rd edition). It is available to download. It is from page 142. I am hoping the usual people on this site will give me a hand understanding what is going on in the figure. After the equation (4.50) it says "It is customary to introduce the principal quantum number, ##n##, which simply orders the allowed energies, starting with 1 for the ground state. (see the figure)" I still don't understand the figure :( Here is...
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Thread 'Understanding how to "tack on" the time wiggle factor'

Thread 'Understanding how to "tack on" the time wiggle factor'

The last problem I posted on QM made it into advanced homework help, that is why I am putting it here. I am sorry for any hassle imposed on the moderators by myself. Part (a) is quite easy. We get $$\sigma_1 = 2\lambda, \mathbf{v}_1 = \begin{pmatrix} 0 \\ 0 \\ 1 \end{pmatrix} \sigma_2 = \lambda, \mathbf{v}_2 = \begin{pmatrix} 1/\sqrt{2} \\ 1/\sqrt{2} \\ 0 \end{pmatrix} \sigma_3 = -\lambda, \mathbf{v}_3 = \begin{pmatrix} 1/\sqrt{2} \\ -1/\sqrt{2} \\ 0 \end{pmatrix} $$ There are two ways...
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