The figure below shows a wave function describing a particle in an infinite square well.This wave-function is normalized.=x1 D andDetermine the probability of finding the particle betweenx2 D D with D thedistance between the walls of the well. Enter a number in the box below to 2 significantfigures.Probability =Pick an alternative set of points x1 and x2 such that the probability of finding the particlebetween them is the same as the probability you determined above. State the answers asfractional values of D by entering an integer number in each of the boxes below. Notethat if you wish to enter integer multiples of D (e.g. OD or 1D) then enter these as Dand D.x1andx2

Step 1: Probability Step 2: calculation of X1 and X2

Answered: The figure below shows a wave function…

Modern Physics

3rd Edition

ISBN:9781111794378

Author:Raymond A. Serway, Clement J. Moses, Curt A. Moyer

Publisher:Raymond A. Serway, Clement J. Moses, Curt A. Moyer

Chapter6: Quantum Mechanics In One Dimension

Section: Chapter Questions

Problem 28P

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Question

The figure below shows a wave function describing a particle in an infinite square well.
This wave-function is normalized.
=
x1 D and
Determine the probability of finding the particle between
x2 D D with D the
distance between the walls of the well. Enter a number in the box below to 2 significant
figures.
Probability =
Pick an alternative set of points x1 and x2 such that the probability of finding the particle
between them is the same as the probability you determined above. State the answers as
fractional values of D by entering an integer number in each of the boxes below. Note
that if you wish to enter integer multiples of D (e.g. OD or 1D) then enter these as D
and D.
x1
and
x2

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