Consider an electron trapped in a 20 Å long box whose wavefunction is given by the following linear combination of the particle's n = 2 and n = 3 states: 2nx - sin V10 3Tx Y(x,t) =, - sin 4 where E, 2ma² a a. Determine if this wavefunction is properly normalized. If not, determine an appropriate value for a normalization constant. b. Show that this is not an eigenfunction to the PitB problem. What are the possible results that could be returned when the energy is measured and what are the probabilities of measuring each of these results?
Consider an electron trapped in a 20 Å long box whose wavefunction is given by the following linear combination of the particle's n = 2 and n = 3 states: 2nx - sin V10 3Tx Y(x,t) =, - sin 4 where E, 2ma² a a. Determine if this wavefunction is properly normalized. If not, determine an appropriate value for a normalization constant. b. Show that this is not an eigenfunction to the PitB problem. What are the possible results that could be returned when the energy is measured and what are the probabilities of measuring each of these results?
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Transcribed Image Text:Consider an electron trapped in a 20 Å long box whose wavefunction is given by the
following linear combination of the particle's n = 2 and n = 3 states:
¥(x,t) =,
2nx
- sin
´37x
- sin
4
where E,
2ma²
a
a. Determine if this wavefunction is properly normalized. If not, determine an
appropriate value for a normalization constant.
b. Show that this is not an eigenfunction to the PitB problem. What are the possible
results that could be returned when the energy is measured and what are the
probabilities of measuring each of these results?
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