Assume that the \(|+z\rangle\) and \(|-z\rangle\) states for an electron in a magnetic field are energy eigenvectors with energies \(E\) and 0, respectively, and assume that the electron’s state at \(t = 0\) is\[|\psi(0)\rangle = \begin{bmatrix} \sqrt{\frac{4}{5}} \\ \sqrt{\frac{1}{5}} \end{bmatrix}\]Find the probability that we will determine this electron’s spin to be in the \(+x\) direction at time \(t\).

We will find the probabilityfor finding electron at +x direction at time t

Assume that the 1+z) and |-z) states for an electron in a magnetic field are energy eigen- vectors with energies E and 0, respectively, and assume that the electron's state at t = 0 is -M |y(0)) = |45|-In Find the probability that we will determine this electron's spin to be in the +x direction at time t

Assume that the 1+z) and |-z) states for an electron in a magnetic field are energy eigen- vectors with energies E and 0, respectively, and assume that the electron's state at t = 0 is -M |y(0)) = |45|-In Find the probability that we will determine this electron's spin to be in the +x direction at time t

Related questions

Q: An atom with 2 neutrons, 1 proton, 1 electron, is in its ground state when one of its neutrons…

A: Detailed solution is given below:

Q: Consider the wave function y(0,0) = 3 sin cos 0e -2(1-cos²0)² (a) Write y(0,0) in terms of the…

Q: Suppose an clectron is in a state described by the wave function 1 (e sin 6 + cos 0) g(r), where I…

Q: For a system of particles of mass m in the state p the formula expression for the particle flux…

A: Given that :F=h4πimΨ* ∂Ψ∂x-Ψ∂Ψ*∂xNow, as we know that the wavefunction of a free particle…

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

Q: "/3 √8/3/ What is the expectation value for spin material (Sx). What value do we get for Sx…

A: Solution: The given state is, ψ>=1383 and,<ψ=1383and, Sx=♄20110

Q: the probability th

Q: Evaluate the lifetime (in seconds) of the transition |2, 1,0) → |1,0,0) of hydrogen.

A: Step 1:Step 2:Step 3:

Q: View the particle system in a one-dimensional box in the range ≤ x ≤ of m-mass and q- charged…

A: The required solution is given below.

Q: A partick of mass m in the potential F (x,r)=m (4x+ ²), is in an cigenstate ofeneigy =: The…

Q: (a) Calculate: (i) the energy spacing AE between the ground state and the first excited state of the…

A: a Bohr's quantization condition, L=nh This leads to a direct set of energies En and radii rn. When…

Q: (a) The lifetime of a highly unstable nucleus is 10-12 s. What is the smallest uncertainty (in ev)…

A: NOTE :- We’ll answer the first question since the exact one wasn’t specified. Please submit a new…

Q: Two identical non-interacting particles of rest energy 0.1973 MeV are trapped in the same infinitely…

Q: (WF-2) The wave function for a proton moving in 1D is given by: y(x) = Csin(x) for 0 ≤ x ≤ñ and zero…

A: We are given wave function. We have to normalize the wave function. The normalization condition is…

Q: A particle of charge q and mass m, moving with a constant speed v, perpendicular to a constant…

A: Given,

Q: c) Electrons of energy 1 GeV are scattered off the nuclei, 64Cu, 108Ag and 197 Au. The first…

Q: III-6: The inertia of a planar rotor isI, its angular momentum L is quantized as L=- with o as…

A: According to our guidelines we'll answer the first 3 sub parts of the question. Please submit a new…

Q: Find the angular momentum and kinetic energy in the z axis for the (cos(30))*e(iΦ)+(sin(30))*e(-iΦ)…

A: Given: ψ=(cos30°)eiϕ+(sin30°)e-iϕ To find: (a) Angular momentum (b) Kinetic energy

Q: In high static-magnetic field environment, such stellar interiors, the energy levels of a H-atom are…

A: In this question, we have given Energy eigenvalues which also depend on the n, l, and m values. So…

Q: 21) An electron in a Hydrogen atom in an external magnetic field H=B2. Assuming the electron…

Q: The energy eigenvalues of a particle in a 3-D box of dimensions (a, b, c) is given by ny E(nx, ny,…

Q: Magnetic field B = 2.7 T. Find the energy of transition of the proton from the basic state to the…

A: We have a proton in a magnetic field B=2.7 T transitioning from ground to the first excited state.…

Q: ) Why does the plane wave [Y(x,t)=Ae^i(kxewt)] have an issue and how to solve it? ii) What are the…

A: The plane wave function Yx,t= Aeikx-wt is a solution to the time-dependent Schrödinger equation for…

Q: Check which of the wavefunctions below represents a physically possible solution to the Schrodinger…

A: Given data, Given some wavefunctions of an electron.

Q: The eigenfunctions satisfy the condition | Vi (x)m(x)dx = &nm , &nm = 1 if n %3D %3D = m , otherwise…

Q: 2. A particle of mass m is moving in an infinite 1D quantum well of width L. V„(x) = Visinx. NAX (a)…

A: Let us solve both parts of the problem, where we are asked to find, Energy needed to be given to…

Q: Assume that the |+z) and |−z) states for an electron in a magnetic field are energy eigen- vectors…

Q: A wave function of a particle with mass m is given by, Acosa ≤ ≤+ otherwise b(z) = {1 Find the…

A: See step 2 .

Q: Assume that the |+z) and |-z) states for an electron in a magnetic field are energy eigen- vectors…

Q: (a) Let n = a + ib be a complex number, where a and b are real (positive or negative) numbers. Show…

A: Given n = a + ib m = c + id

Q: Angular momentum is best expressed as a vector, 1= (L,,!y,lz). In quantum mechanics, the…

Q: Show that if (x) and (x) are solutions of the time independent Schrödinger equation, Y(x,t) =…

Q: A three-dimensional wave function of a particle is u(x)=c/r exp(-kr/i)calculate the probability…

Q: Time is a parameter, not an observable. ∆t is some timescale over which the expectation value of an…

Q: Consider a system of N non - interacting particles. Each particle is fixed in position and can sit…

A: the general approach and concepts involved. The problem appears to be related to determining the…

Q: A particle of mass m is moving in an infinite 1D quantum well of width L. ½(x) = Vi sin (а) How much…

Q: = Consider a particle with mass m in an infinite square well of width L = 1, with energy E (a) What…

Question

Assume that the \(|+z\rangle\) and \(|-z\rangle\) states for an electron in a magnetic field are energy eigenvectors with energies \(E\) and 0, respectively, and assume that the electron’s state at \(t = 0\) is

\[
|\psi(0)\rangle = \begin{bmatrix} \sqrt{\frac{4}{5}} \\ \sqrt{\frac{1}{5}} \end{bmatrix}
\]

Find the probability that we will determine this electron’s spin to be in the \(+x\) direction at time \(t\).

Expert Solution

This question has been solved!

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

SEE SOLUTION Check out a sample Q&A here

Step 1: solution

VIEW

Step 2: solution

VIEW

Solution

VIEW

Step by step

Solved in 3 steps with 1 images

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