Calculating Quantum Number n for a Mass Moving in an Infinite Square Well

UrbanXrisis
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a mass of 10^-6 grams is moving at a speed of 0.1 cm/s in a box 1 cm in length. Treating this as a 1-D infinite square well, i am to calculate the quantum number n:

i was wondering if I am setting this up correct:
\frac{1}{2} * 10^{-6 }g * 0.1 cm/s = \frac{n^2 \pi^2 \hbar ^2}{2*10^{-6 }g * 1cm^2}
 
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Just use v^2 on the LHS.
 
so E= \frac{n^2 \pi^2 \hbar ^2}{2mL}
is really kinetic energy?
 
UrbanXrisis said:
so E= \frac{n^2 \pi^2 \hbar ^2}{2mL}
is really kinetic energy?

Not exactly. E = T + V. But since this is an infinite square well and the region you have has V defined as zero...

-Dan
 

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