A free electron is propagatingwith a time-dependent wave function of the form,4+i√3V(x, t)-₁ (x) exp—i(2[eV]))t¯ħ61in+-= = exp [17] 1/₂ (2) exp[-i (4[V])e]2i2ħ-i(6[eV])t+ Z3(x) expħWhat is the expectation value of the particle's energy?a.5.64[eV]b.3.39[eV]C.3.83[eV]d. 20.3 [eV]=

Given, ψx,t=4+i36ψ1xexp-i2eVth+12iexpiπ2ψ2xexp-i4eVth+Zψ3xexp-i6eVth

A free electron is propagating with a time-dependent wave function of the form, 4 + i√³3 $1 (2) exp -i(2[eV]))t V(x, t) = 6 ħ 1 in -i(4[eV])t` + 2/7 exp[²7] 2₂ (2) exp[=i(4 CV)t] 2i 2 ħ -i(6[eV])t + Z3 (x) exp ħ What is the expectation value of the particle's energy? a. 5.64[eV] b. 3.39[eV] C. 3.83[eV] d. 20.3 [eV]

A free electron is propagating with a time-dependent wave function of the form, 4 + i√³3 $1 (2) exp -i(2[eV]))t V(x, t) = 6 ħ 1 in -i(4[eV])t` + 2/7 exp[²7] 2₂ (2) exp[=i(4 CV)t] 2i 2 ħ -i(6[eV])t + Z3 (x) exp ħ What is the expectation value of the particle's energy? a. 5.64[eV] b. 3.39[eV] C. 3.83[eV] d. 20.3 [eV]

Related questions

Q: If the wave function of a three dimensional electronic gas is given. (²L) L √₂m k h ic by the…

Q: *10 Show that the probability P(E) that an energy level having energy E is not occupied is P(E) =…

Q: the probability th

Q: Q/ Prove that the frequency of the X-ray spectrum line (k_a) emitted by an element with atomic…

Q: An electron is in a spin state given by 2/1/ 2 5o = √² (¹/1²) |x) 3 Find the probability that a…

Q: The equation for the energy of a K« x – ray is Eka = (10.2 eV)(Z – 1)². Explain where the 10.2 eV…

A: A Kα x ray line is produced when a high energy particle, possibly another electron, collides with an…

Q: Compute the change in wavelength of the 2p → 1s photon when a hydrogen atom is placed in a magnetic…

A: Spectral lines are formed due to electron transitions inside an atom. It was observed that when the…

Q: -iß. A hypothetical one dimensional quantum particle has a normalised wave function given by y(x) =…

Q: (b) (4, 3, 2, -1) (4, 2, 3, 1) Is the transition allowed? Yes What is the energy involved (in eV)?…

A: Given is a transition fromOn the basis of the given data we need to answer the following1.) Is the…

Q: Assume that the nucleus of an atom can be regarded as a three-dimensional box of width 2:10-¹4 m. If…

Q: Calculate the most probable value of the radial position, r, for this electron. Note: The volume…

Q: An atom, with atomic mass A = 22 is trapped in a harmonic oscillator with angular frequency 24.5…

A: This problem can be solved using the formula for ground state of simple harmonic oscillator.

Q: Deduce the Uncertainty Principle Axap = 15/2/ from AEAt = h =t

Q: 3. An electron in a helium atom is in a state described by the (normalized) wave function &= 4…

Q: 2 The electronic density of states, within the free electron model, is given as D(ɛ) =- 2.7…

Q: Ro Rz %3D 1+

Q: Consider 1.50 mols of a substance in thermal equilibrium at a temperature of 87.0 °C whose atoms can…

A: Given that number of moles of a substance and temperature and also given the value of one electron…

Q: 2 The wave function of the ground state of hydrogen has the form. 1 $100 - - e r To 3 TO Find the…

Q: Given that: mv? v?e 2RT m f (v) = = 4T 2TRT and there is an identity showing that: 00 1 x²e-ax* dx…

Q: Answer the attached question.

A: Given that, Eo = 2π2qe4mek2h2 ---(1) Where, me = Mass fo electron = 9.11*10-31Kg qe = charge on…

Q: The first absorption spectrum of 1Pco is at 3.842 cm while that of "cl0 is at 3.673 cm'. The ratio…

Q: Part A For an electron in the 1s state of hydrogen, what is the probability of being in a spherical…

Q: (a) The Einstein A coefficient of the 3p² ³P₁/2 →3s² ³S₁/2 transition in sodium is 6.14 x 107 s¹. A…

Q: Using eqns 1.58 and 1.61, show that Ŝ+1S, S2) = / S(S +1) - Sz(Sz ± 1)|S, Sz ± 1), (1.76)

A: Given: [S+,S-]=2Sz and S+S-+S-S+=2(Sx2 +Sy2 ) Show that; S±|S,Sz> = S(S+1)-Sz(Sz±1)…

Q: In a basis in which the z-component S ofthe spin is diagonal, an electron is in a spm state (a+i)/6)…

A: We will write the given wavefunction in terms of the basis of the spin Sz,

Q: Chapter 38, Problem 071 For the arrangement of Figure (a) and Figure (b), electrons in the incident…

Q: Consider the sp hybrid orbital of the H-atom: spx-> = 1 =(|2s > - |2px>) (a) Find the expectation…

A: Here, For LZ = m h So, <Lz> = 1/2 ( 0 + 1) h = 1/2 h So , <Lz>/h = 1/2

Q: What fraction of the electrons in copper have energies between 0.80 and1.0 of the maximum energy at…

Q: how much energy does it take to singly ionize it?

Q: Consider a hydrogen atom in a large magnetic field. Compute the wavelengths of the photons when it…

A: In this question we are given that; Consider a hydrogen atom in a large magnetic field. Compute…

Q: onsider the electron of a Li2+ ion that undergoes a transition from a higher energy state n to its…

A: Given: The threshold potential of potassium is 5.464×1014 s-1. Introduction: The photoelectric…

Q: In quantum mechanics, electron wave functions often involve spherical harmonics, and the l and m…

A: Given: Integral = We have to find it is zero or not for the following values -

Q: Q/ For a state of a nucleus with a definite mass (M) and not infinity around which an electron of…

A: The state of nucleus with a definite mass (M) and not infinity around which an electron of mass (m)…

Q: Show that at limitħookgT, the following expression, h w³ e(w, T)= e exp(Bhw)-1 reduces to the…

Q: Deduce the Uncertainty Principle AxAP = 1/2 from AEAt = th

Q: 19.7 The variation principle can be used to formulate the wavefunctions of electrons in atoms as…

A: Given energy equation is denoted as, E(α)=3αh22μ-2e2(2απ)1/2 To find the minimum energy given below.

Q: Q1:-(a) Certain ocean waves travel with a phase velocity Vp=V(8N27), where g is the acceleration due…

A: Waves can move in group, which are referred to as wave packets. The velocity at which a wave packet…

Q: The quantum-mechanical treatment of the hydrogen atom gives an expression for the wave function ψ,…

A: The wavefunction for the 1s orbital of the hydrogen atom is given, ψ=1π1a032e-ra0 where r is the…

Question

A free electron is propagating
with a time-dependent wave function of the form,
4+i√3
V(x, t)
-₁ (x) exp
—i(2[eV]))t¯
ħ
6
1
in
+
-= = exp [17] 1/₂ (2) exp[-i (4[V])e]
2i
2
ħ
-i(6[eV])t
+ Z3(x) exp
ħ
What is the expectation value of the particle's energy?
a.
5.64[eV]
b.
3.39[eV]
C.
3.83[eV]
d. 20.3 [eV]
=

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

Step 2

Step 3

Step 4

Step 5

Step 6

Trending now

This is a popular solution!

Step by step

Solved in 6 steps

SEE SOLUTION Check out a sample Q&A here

GET THE APP

About FAQ Academic Integrity Sitemap Document Sitemap

Contact Bartleby Contact Research (Essays)High School Textbooks Literature Guides Concept Explainers by Subject Essay Help Mobile App

GET THE APP

Privacy

Your CA Privacy Rights

Your NV Privacy Rights

Cookie Policy

About Ads

Manage My Data

bartleby, a Learneo, Inc. business