Below is a graph of a potential, V(x), forsome quantum mechanical system. Notethat V(x) = ∞ for x ≤ 0. Select the bestenergy eigenstate wave function sketchthat shows the important qualitativefeatures of the wave function for thesystem with total energy E (where V₁ < E Choose the best explanation for youranswer to the previous question from thechoices below.O The probability of measuring a particularenergy is time-independent.Over time the wave function of the particlewill relax to the initial state.O The probability of measuring a particularenergy is time-dependent.Although the probability of measuring aparticular energy will vary in time, theexpectation value of energy is time-independent.

We are given a quantum mechanical system. We are given step potential at each point. The potential…

Below is a graph of a potential, V(x), for some quantum mechanical system. Note that V(x) = ∞ for x ≤ 0. Select the best energy eigenstate wave function sketch that shows the important qualitative features of the wave function for the system with total energy E (where V₁ < E

Below is a graph of a potential, V(x), for some quantum mechanical system. Note that V(x) = ∞ for x ≤ 0. Select the best energy eigenstate wave function sketch that shows the important qualitative features of the wave function for the system with total energy E (where V₁ < E

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Question

Below is a graph of a potential, V(x), for
some quantum mechanical system. Note
that V(x) = ∞ for x ≤ 0. Select the best
energy eigenstate wave function sketch
that shows the important qualitative
features of the wave function for the
system with total energy E (where V₁ < E
<V₁1)
A
4(x)
MAL
C.
4(x)
K(x)
00%
V₁
V
B.
$(x)
D.
*(x)
Ar

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