1 A particle is confined between rigid walls separated by a distance L= 0.189 nm. The particle is in the sixth excited state (n= 7). Evaluate the probability to find the particle in an interval of width 1.60 pm at the following locations. (Hint: Nointegrations are required for this problem; use Equation 5.4 directly.) What would be the corresponding results for aclassical particle?P(x)dx = lv(x)l?dxEquation 5.4quantumclassical(a) x = 0.188 nm 000228(b) x = 0.031 nm 0034008(c) x = 0.079 nm 0009.008X x X

Given: The length of the rigid wall is L=0.189 nm. The state of the particle is n=7. The…

A particle is confined betweek = 7). Evaluate the probability to find the particle in an interval of width 1.60 pm at the following locations. ntegrations are required for this problem; use Equation 5.4 directly.) What would be the corresponding results for a Elassical particle? P(x)dx = lv(x)|?dx

A particle is confined betweek = 7). Evaluate the probability to find the particle in an interval of width 1.60 pm at the following locations. ntegrations are required for this problem; use Equation 5.4 directly.) What would be the corresponding results for a Elassical particle? P(x)dx = lv(x)|?dx

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Question

A particle is confined between rigid walls separated by a distance L= 0.189 nm. The particle is in the sixth excited state (n
= 7). Evaluate the probability to find the particle in an interval of width 1.60 pm at the following locations. (Hint: No
integrations are required for this problem; use Equation 5.4 directly.) What would be the corresponding results for a
classical particle?
P(x)dx = lv(x)l?dx
Equation 5.4
quantum
classical
(a) x = 0.188 nm 000228
(b) x = 0.031 nm 0034
008
(c) x = 0.079 nm 0009
.008
X x X

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