A quantum particle in an infinitely deep square well has a wave function given by ψ2(x) = √2/L sin (2πx/L)for 0 ≤ x ≤ L and zero otherwise. (a) Determine the expectation value of x. (b) Determine the probability of finding the particle near 1/2 L by calculating the probability that the particle lies in the range 0.490L ≤ x ≤ 0.510L. (c) What If? Determine the probability of finding the particle near 1/4L bycalculating the probability that the particle lies in the range 0.240L ≤ x ≤ 0.260L. (d) Argue that the result of part (a)does not contradict the results of parts (b) and (c).

A quantum particle in an infinitely deep square well has a wave function given by ψ2(x) = √2/L sin (2πx/L)for 0 ≤ x ≤ L and zero otherwise. (a) Determine the expectation value of x. (b) Determine the probability of finding the particle near 1/2 L by calculating the probability that the particle lies in the range 0.490L ≤ x ≤ 0.510L. (c) What If? Determine the probability of finding the particle near 1/4L bycalculating the probability that the particle lies in the range 0.240L ≤ x ≤ 0.260L. (d) Argue that the result of part (a)does not contradict the results of parts (b) and (c).

Related questions

Q: An electron is confined to a one-dimensional infinite well 0.1 nm. wide. (a) Determine the deBroglie…

A: We are authorized to answer three subparts at a time, since you have not mentioned which part you…

Q: It's a quantum mechanics question.

A: The relation between the Cartesian and spherical coordinates is given as,

Q: An electron is the Spin State. X - B() י ו - 2i) %3D 3+i a. ind the Normalization constant B and the…

Q: The wave function for a particle is given by ψ(x) = Aei|x|/a, where A and a are constants. (a)…

Q: A particle is confined in an infinite potential well. If the width of the well is a, what is the…

A: The potential function of an one dimensional infinite well of width a is given as follows. V(x)=0,…

Q: A particle of mass m is confined to a one-dimensional (1D) infinite well (i.e., a 1D box) of width 6…

Q: A quantum mechanical state of a particle is described by the normalized wave function (e" sin 0+ cos…

A: The wave function has a form of, The operator used are L2, LZ. The L2 operate on orbital quantum…

Q: H-hw (a,a 2. +!

Q: the probability th

Q: (5) The wave function for a particle is given by: (x) = Ae-/L for r 0, where A and L are constants,…

Q: quantum system has a ground state with energy E0 = 0 meV and a 7-fold degenerate excited state with…

Q: An electron has a wave function Y(x) = Ce-kl/xo %3D where x0 is a constant and C = 1/Vxo is the…

A: Given, ψx= Ce-xx0=1x0e-xx0<x>=∫ψ*xψdx=1x0∫-∞∞xe-2xx0dxx=x for x>0=-x for…

Q: At time t = 0, a free particle is in a state described by the normalised wave function V(x, 0) where…

Q: 2: Assume a particle has the wave-function given by (2πχ √2/² s(²TXX +77) L L 4(x) = and its total…

A: Given that: The wave function ψ(x) = 2L cos(2πxL + π2). Total energy E=h2mL2.

Q: 3. A ID quantum well is described by the following position dependent potential energy for a moving…

A: Given: 1D quantum well V=∞x≤0-Vo0≤x≤L0x≥L Using Schrodinger equation:…

Q: The speed of an electron is measured to within an uncertainty of 2.0 × 104 m/s. What is the size of…

A: Operators in quantum mechanics are used to perform operations on the wave function. The momentum…

Q: The wave function for a quantum particle is a (x) π(x² + a²) for a > 0 and -" <x<+. Determine the…

A: In quantum mechanics wave function of a particle is a quantity that mathematically describes the…

Q: Calculate the uncertainty ArAp, with respect to the state 1 1 r -r/2a₁Y₁0 (0₂9), √√6 ao 290 and…

A: It is the wave function of hydrogen atom for n=2 , l=1, m=0. We know that Y1,0(θ, φ)=√(3/4π).cos(θ).…

Q: ∆E ∆t ≥ ħTime is a parameter, not an observable. ∆t is some timescale over which the expectation…

A: The objective of the question is to predict the width of the energy resonance of a ∆ particle using…

Q: wave function is given by Yext z = %3D otherwise find the probabilityof te particle being_in_range.

A: To find the normalization constant of the given wave function, the normalization condition for the…

Q: 3. (b) A particle is described by the wave function ={Cez/L [ce-3/L y(x) = Graph the wave function…

Q: If the particle in the box in the second excited state(i.e. n=3), what is the probability P that it…

Q: An electron is described by the wave function ¥(x)=0 for x0 Where x is in nanometres and C is…

A: We are given wavefunction of electron. This wavefunction is zero for position less than zero. We…

Q: Problem 3. Consider the two example systems from quantum mechanics. First, for a particle in a box…

A: Given the length of 1 Dimension box is 1. And given a 1 dimension hormonic oscillator. Let the mass…

Q: Solid metals can be modeled as a set of uncoupled harmonic oscillators of the same frequency with…

A: The required solution is following

Q: A particle is described by the following normalized superposition wavefunction: Y(x)= =√(si…

Q: You want to determine the possible energy observable values of a particle in a non- zero potential…

Q: Show that the uncertainty principle can be expressed in the form ∆L ∆θ ≥ h/2, where θ is the angle…

A: Considering a particle in circular motion, the angular momentum of such a particle can be described…

Question

A quantum particle in an infinitely deep square well has a wave function given by
ψ₂(x) = √2/L sin (2πx/L)
for 0 ≤ x ≤ L and zero otherwise. (a) Determine the expectation value of x. (b) Determine the probability of finding the particle near 1/2 L by calculating the probability that the particle lies in the range 0.490L ≤ x ≤ 0.510L. (c) What If? Determine the probability of finding the particle near 1/4L bycalculating the probability that the particle lies in the range 0.240L ≤ x ≤ 0.260L. (d) Argue that the result of part (a)does not contradict the results of parts (b) and (c).

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1 Given

VIEW

Step 2 (a) The expectation value of x

VIEW

Step 3 (b) Probability of finding the particle near L/2.

VIEW

Step 4 (c) Probability of finding the particle near L/4.

VIEW

Step 5 (d)

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 5 steps with 8 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

Calculate the tunneling probability when the kinetic energy of the particle is 0.2 MeV , the barrier height is 20MEV, the probability amplitude is 1.95 x10'5 m-1, and the width of the barrier is 2.97×10¬1º m . (A) 0.046 (В) 0.156 (С) 0.026 (D) 0.456
The wave function of a particle at t = 0 is given as: ψ(x, t) = C exp[ -|x|/x0] where C and x0 are constants. (a) What is the relation between C and x0?(b) Calculate the expectation value of position x of the particle.(c) Suggest a region in x in which the probability of finding the particle is 0.5.
The energy of a particle in a one-dimensional trap with zero potential energy in the interior and infinite potential energy at the walls is proportional to (n = quantum number):
An electron is trapped in a region between two infinitely high energy barriers. In the region between the barriers the potential energy of the electron is zero. The normalized wave function of the electron in the region between the walls is ψ(x) = Asin(bx), where A=0.5nm1/2 and b=1.18nm-1. What is the probability to find the electron between x = 0.99nm and x = 1.01nm.
Show that normalizing the particle-in-a-box wave function ψ_n (x)=A sin⁡(nπx/L) gives A=√(2/L).
An electron is in an infinite potential well of width 364 pm, and is in the normalised superposition state Ψ=cos(θ) ψ5-sin(θ) i ψ8. If the value of θ is -1.03 radians, what is the expectation value of energy, in eV, of the electron?