Eigenstates of a Particle in a Box at x = a/2?

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What are the eigenstates of a particle in a box whose bounds are x = -a/2 and x = a/2?

Solution
Well, the eigenstates where x = 0, a are just

\varphi_n = \sqrt{\frac{2}{a}} \sin \frac{n \pi x}{a},

so why wouldn't the eigenstates just be

\varphi_n = \sqrt{\frac{2}{a}} \sin \frac{n \pi (x+a/2)}{a} = \sqrt{\frac{2}{a}}\sin \left(\frac{n \pi x}{a} + \frac{n \pi}{2}}\right)

?
 
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No reason at all; those are the eigenstates!
 
Yes, I just figured out the reason... I was slightly afraid of the negative sign that resulted in my answer for the Sin x solution, but it doesn't matter... negative signs don't have any effect on eigenstates.
 

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